File Coverage

DOM.xs

Criterion	Covered	Total	%
statement	1061	1339	79.2
branch	728	2284	31.8
condition			n/a
subroutine			n/a
pod			n/a
total	1789	3623	49.3

line	stmt	bran	code
1			#include "EXTERN.h"
2			#include "perl.h"
3			#include "XSUB.h"
4
5			#define NEED_newRV_noinc
6			#define NEED_sv_2pv_flags
7			#include "ppport.h"
8			#include "utils.h"
9
10			//#define DOM_GC_TRACE(msg, ...) fprintf(stderr, "[GC] " msg "\n", ##__VA_ARGS__);
11			#define DOM_GC_TRACE(...)
12
13			// HACK: sv_derived_from_pvn faster than sv_derived_from
14			#if PERL_BCDVERSION > 0x5015004
15			#undef sv_derived_from
16			#define sv_derived_from(sv, name) sv_derived_from_pvn(sv, name, sizeof(name) - 1, 0)
17			#else
18			#define sv_derived_from_pvn(sv, name, len) sv_derived_from(sv, name)
19			#endif
20
21			// HACK: support older perl <5.6 (why not :D)
22			#if PERL_BCDVERSION < 0x5006000
23			#define SvUTF8(x) (0)
24			#define SvUTF8_on(x)
25			#define SvUTF8_off(x)
26			#endif
27
28			#define sub_croak(cv, msg, ...) do { \
29			const GV *const __gv = CvGV(cv); \
30			if (__gv) { \
31			const char *__gvname = GvNAME(__gv); \
32			const HV *__stash = GvSTASH(__gv); \
33			const char *__hvname = __stash ? HvNAME(__stash) : NULL; \
34			croak("%s%s%s(): " msg, __hvname ? __hvname : __gvname, __hvname ? "::" : "", __hvname ? __gvname : "", ##__VA_ARGS__); \
35			} \
36			} while (0);
37
38			typedef html5_dom_parser_t * HTML5__DOM;
39			typedef myhtml_collection_t * HTML5__DOM__Collection;
40			typedef myhtml_tree_node_t * HTML5__DOM__Node;
41			typedef myhtml_tree_node_t * HTML5__DOM__Element;
42			typedef myhtml_tree_node_t * HTML5__DOM__Text;
43			typedef myhtml_tree_node_t * HTML5__DOM__Comment;
44			typedef myhtml_tree_node_t * HTML5__DOM__Document;
45			typedef myhtml_tree_node_t * HTML5__DOM__Fragment;
46			typedef myhtml_tree_node_t * HTML5__DOM__DocType;
47			typedef html5_dom_tree_t * HTML5__DOM__Tree;
48			typedef html5_css_parser_t * HTML5__DOM__CSS;
49			typedef html5_css_selector_t * HTML5__DOM__CSS__Selector;
50			typedef html5_css_selector_entry_t * HTML5__DOM__CSS__Selector__Entry;
51			typedef html5_dom_async_result * HTML5__DOM__AsyncResult;
52
53	1076		static mystatus_t sv_serialization_callback(const char data, size_t len, void ctx) {
54	1076		sv_catpvn((SV *) ctx, data, len);
55	1076		return MyCORE_STATUS_OK;
56			}
57
58	1414		static inline SV pack_pointer(const char clazz, void *ptr) {
59	1414		SV *sv = newSV(0);
60	1414		sv_setref_pv(sv, clazz, ptr);
61	1414		return sv;
62			}
63
64	160		static void html5_dom_recursive_node_text(myhtml_tree_node_t node, SV sv) {
65	160		node = myhtml_node_child(node);
66	331	100	while (node) {
67	171	100	if (node->tag_id == MyHTML_TAG__TEXT) {
68	162		size_t text_len = 0;
69	162		const char *text = myhtml_node_text(node, &text_len);
70	162	50	if (text_len)
71	162		sv_catpvn(sv, text, text_len);
72	9	50	} else if (node_is_element(node)) {
		50
		100
		50
73	6		html5_dom_recursive_node_text(node, sv);
74			}
75	171		node = myhtml_node_next(node);
76			}
77	160		}
78
79	129		static SV create_tree_object(myhtml_tree_t tree, SV parent, html5_dom_parser_t parser, bool used, bool utf8) {
80	129		html5_dom_tree_t tree_obj = (html5_dom_tree_t ) tree->context;
81
82	129	100	if (tree_obj)
83	2		return newRV(tree_obj->sv);
84
85	127		tree->context = safemalloc(sizeof(html5_dom_tree_t));
86	127		tree_obj = (html5_dom_tree_t *) tree->context;
87
88	127		tree_obj->tree = tree;
89	127		tree_obj->parent = parent;
90	127		tree_obj->parser = parser;
91	127		tree_obj->fragment_tag_id = MyHTML_TAG__UNDEF;
92	127		tree_obj->used = used;
93	127		tree_obj->utf8 = utf8;
94
95	127		SvREFCNT_inc(parent);
96
97	127		SV *sv = pack_pointer("HTML5::DOM::Tree", tree_obj);
98	127		tree_obj->sv = SvRV(sv);
99
100			DOM_GC_TRACE("DOM::Tree::NEW (refcnt=%d)", SvREFCNT(sv));
101
102	127		return sv;
103			}
104
105	1246		static inline const char get_node_class(myhtml_tree_node_t node) {
106	1246		html5_dom_tree_t context = (html5_dom_tree_t ) node->tree->context;
107
108	1246	100	if (node->tag_id != MyHTML_TAG__UNDEF) {
109	1065	100	if (node->tag_id == MyHTML_TAG__TEXT) {
110	84		return "HTML5::DOM::Text";
111	981	100	} else if (node->tag_id == MyHTML_TAG__COMMENT) {
112	32		return "HTML5::DOM::Comment";
113	949	100	} else if (node->tag_id == MyHTML_TAG__DOCTYPE) {
114	175		return "HTML5::DOM::DocType";
115	774	100	} else if (context->fragment_tag_id && node->tag_id == context->fragment_tag_id) {
		100
116	14		return "HTML5::DOM::Fragment";
117			}
118	760		return "HTML5::DOM::Element";
119			}
120
121			// Modest myhtml bug - document node has tag_id == MyHTML_TAG__UNDEF
122	181	50	if (node_is_document(node))
		50
123	181		return "HTML5::DOM::Document";
124
125	0		return "HTML5::DOM::Node";
126			}
127
128	582		static inline SV newSVpv_utf8_auto(myhtml_tree_t tree, const char *value, STRLEN length) {
129	582		html5_dom_tree_t context = (html5_dom_tree_t ) tree->context;
130	582	50	if (!context \|\| !context->utf8) {
		100
131	579		return newSVpv(value, length);
132			} else {
133	3		SV *sv = newSVpv(value, length);
134	3		SvUTF8_on(sv);
135	3		return sv;
136			}
137			}
138
139	179		static inline SV newSVpv_utf8_auto_css(html5_css_selector_t selector, const char *value, STRLEN length) {
140	179	50	if (!selector \|\| !selector->utf8) {
		100
141	176		return newSVpv(value, length);
142			} else {
143	3		SV *sv = newSVpv(value, length);
144	3		SvUTF8_on(sv);
145	3		return sv;
146			}
147			}
148
149	26		static SV tree_to_sv(myhtml_tree_t tree) {
150	26		html5_dom_tree_t context = (html5_dom_tree_t ) tree->context;
151	26		return newRV(context->sv);
152			}
153
154	6		static SV myhtml_to_sv(myhtml_tree_t tree) {
155	6		html5_dom_tree_t context = (html5_dom_tree_t ) tree->context;
156	6		return newRV(context->parent);
157			}
158
159	1393		static SV node_to_sv(myhtml_tree_node_t node) {
160	1393	100	if (!node)
161	16		return &PL_sv_undef;
162
163	1377		SV sv = (SV ) myhtml_node_get_data(node);
164	1377	100	if (!sv) {
165	1246		SV node_ref = pack_pointer(get_node_class(node), (void ) node);
166	1246		sv = SvRV(node_ref);
167	1246		myhtml_node_set_data(node, (void *) sv);
168
169			DOM_GC_TRACE("DOM::Node::NEW (new refcnt=%d)", SvREFCNT(sv));
170
171	1246		html5_dom_tree_t tree = (html5_dom_tree_t ) node->tree->context;
172	1246		SvREFCNT_inc(tree->sv);
173
174	1246		return node_ref;
175			} else {
176	131		SV *node_ref = newRV(sv);
177			DOM_GC_TRACE("DOM::Node::NEW (reuse refcnt=%d)", SvREFCNT(sv));
178	131		return node_ref;
179			}
180			}
181
182	185		static SV collection_to_blessed_array(myhtml_collection_t collection) {
183	185		AV *arr = newAV();
184	185	100	if (collection) {
185	406	100	for (int i = 0; i < collection->length; ++i)
186	229		av_push(arr, node_to_sv(collection->list[i]));
187			}
188	185		return sv_bless(newRV_noinc((SV *) arr), gv_stashpv("HTML5::DOM::Collection", 0));
189			}
190
191	848		static SV sv_stringify(SV sv) {
192	848	50	if (SvROK(sv)) {
193	0		SV *tmp_sv = SvRV(sv);
194	0	0	if (SvOBJECT(tmp_sv)) {
195	0		HV *stash = SvSTASH(tmp_sv);
196	0		GV *to_string = gv_fetchmethod_autoload(stash, "\x28\x22\x22", 0);
197
198	0	0	if (to_string) {
199	0		dSP;
200	0	0	ENTER; SAVETMPS; PUSHMARK(SP);
201	0	0	XPUSHs(sv_bless(sv_2mortal(newRV_inc(tmp_sv)), stash));
202	0		PUTBACK;
203	0		call_sv((SV *) GvCV(to_string), G_SCALAR);
204	0		SPAGAIN;
205
206	0		SV *new_sv = POPs;
207
208	0		PUTBACK;
209	0	0	FREETMPS; LEAVE;
210
211	0		return new_sv;
212			}
213			}
214			}
215	848		return sv;
216			}
217
218	108		static SV html5_node_find(CV cv, html5_dom_parser_t parser, myhtml_tree_node_t scope, SV query, SV combinator, bool one) {
219			mystatus_t status;
220	108		mycss_selectors_entries_list_t *list = NULL;
221	108		size_t list_size = 0;
222	108		mycss_selectors_list_t *selector = NULL;
223	108		modest_finder_selector_combinator_f selector_func = modest_finder_node_combinator_descendant;
224	108		SV *result = &PL_sv_undef;
225
226			// Custom combinator as args
227	108	50	if (combinator) {
228	0		query = sv_stringify(query);
229
230			STRLEN combo_len;
231	0	0	const char *combo = SvPV_const(combinator, combo_len);
232
233	0	0	if (combo_len > 0)
234	0		selector_func = html5_find_selector_func(combo, combo_len);
235			}
236
237	108	50	if (SvROK(query)) {
238	0	0	if (sv_derived_from(query, "HTML5::DOM::CSS::Selector")) { // Precompiler selectors
239	0	0	html5_css_selector_t selector = INT2PTR(html5_css_selector_t , SvIV((SV*)SvRV(query)));
240	0		list = selector->list->entries_list;
241	0		list_size = selector->list->entries_list_length;
242	0	0	} else if (sv_derived_from(query, "HTML5::DOM::CSS::Selector::Entry")) { // One precompiled selector
243	0	0	html5_css_selector_entry_t selector = INT2PTR(html5_css_selector_entry_t , SvIV((SV*)SvRV(query)));
244	0		list = selector->list;
245	0		list_size = 1;
246			} else {
247	0	0	sub_croak(cv, "%s: %s is not of type %s or %s", "HTML5::DOM::Tree::find", "query", "HTML5::DOM::CSS::Selector", "HTML5::DOM::CSS::Selector::Entry");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
248			}
249			} else {
250			// String selector, compile it
251	108		query = sv_stringify(query);
252
253			STRLEN query_len;
254	108	50	const char *query_str = SvPV_const(query, query_len);
255
256	108		status = html5_dom_init_css(parser);
257	108	50	if (status)
258	0	0	sub_croak(cv, "mycss_init failed: %d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
259
260	108		selector = html5_parse_selector(parser->mycss_entry, query_str, query_len, &status);
261
262	108	50	if (!selector)
263	0	0	sub_croak(cv, "bad selector: %s", query_str);
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
264
265	108		list = selector->entries_list;
266	108		list_size = selector->entries_list_length;
267			}
268
269	108	100	if (one) { // search one element
270	71		myhtml_tree_node_t node = (myhtml_tree_node_t ) html5_node_finder(parser, selector_func, scope, list, list_size, &status, 1);
271	71		result = node_to_sv(node);
272			} else { // search multiple elements
273	37		myhtml_collection_t collection = (myhtml_collection_t ) html5_node_finder(parser, selector_func, scope, list, list_size, &status, 0);
274	37		result = collection_to_blessed_array(collection);
275	37	50	if (collection)
276	37		myhtml_collection_destroy(collection);
277			}
278
279			// destroy parsed selector
280	108	50	if (selector)
281	108		mycss_selectors_list_destroy(mycss_entry_selectors(parser->mycss_entry), selector, true);
282
283	108		return result;
284			}
285
286	160		static SV html5_node_simple_find(CV cv, myhtml_tree_node_t self, SV key, SV val, SV cmp, bool icase, int ix) {
287	160	50	if (!self)
288	0		return collection_to_blessed_array(NULL);
289
290	160		SV *result = &PL_sv_undef;
291	160		key = sv_stringify(key);
292
293			STRLEN key_len;
294	160	50	const char *key_str = SvPV_const(key, key_len);
295
296	160		myhtml_collection_t *collection = NULL;
297	160		switch (ix) {
298			case 0: case 1: // tag name
299	24		collection = myhtml_get_nodes_by_name_in_scope(self->tree, NULL, self, key_str, key_len, NULL);
300	24		result = collection_to_blessed_array(collection);
301	24		break;
302			case 2: case 3: // class
303	28		collection = myhtml_get_nodes_by_attribute_value_whitespace_separated(self->tree, NULL, self, false, "class", 5, key_str, key_len, NULL);
304	28		result = collection_to_blessed_array(collection);
305	28		break;
306			case 4: case 5: // id (first)
307	12		collection = myhtml_get_nodes_by_attribute_value(self->tree, NULL, self, false, "id", 2, key_str, key_len, NULL);
308	12	50	if (collection && collection->length)
		100
309	8		result = node_to_sv(collection->list[0]);
310	12		break;
311			case 6: case 7: // attribute
312	96	50	if (val) {
313			STRLEN val_len;
314	96	50	const char *val_str = SvPV_const(val, val_len);
315
316	96		char cmp_type = '=';
317	96	50	if (cmp) {
318	96		cmp = sv_stringify(cmp);
319			STRLEN cmp_len;
320	96	50	const char *cmp_str = SvPV_const(cmp, cmp_len);
321
322	96	50	if (cmp_len)
323	96		cmp_type = cmp_str[0];
324			}
325
326	96	100	if (cmp_type == '=') {
327			// [key=val]
328	16		collection = myhtml_get_nodes_by_attribute_value(self->tree, NULL, self, icase, key_str, key_len, val_str, val_len, NULL);
329	80	100	} else if (cmp_type == '~') {
330			// [key~=val]
331	16		collection = myhtml_get_nodes_by_attribute_value_whitespace_separated(self->tree, NULL, self, icase, key_str, key_len, val_str, val_len, NULL);
332	64	100	} else if (cmp_type == '^') {
333			// [key^=val]
334	16		collection = myhtml_get_nodes_by_attribute_value_begin(self->tree, NULL, self, icase, key_str, key_len, val_str, val_len, NULL);
335	48	100	} else if (cmp_type == '$') {
336			// [key$=val]
337	16		collection = myhtml_get_nodes_by_attribute_value_end(self->tree, NULL, self, icase, key_str, key_len, val_str, val_len, NULL);
338	32	100	} else if (cmp_type == '*') {
339			// [key*=val]
340	16		collection = myhtml_get_nodes_by_attribute_value_contain(self->tree, NULL, self, icase, key_str, key_len, val_str, val_len, NULL);
341	16	50	} else if (cmp_type == '\|') {
342			// [key\|=val]
343	16		collection = myhtml_get_nodes_by_attribute_value_hyphen_separated(self->tree, NULL, self, icase, key_str, key_len, val_str, val_len, NULL);
344			} else {
345	96	0	sub_croak(cv, "unknown cmp type: %c", cmp_type);
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
346			}
347			} else {
348			// [key]
349	0		collection = myhtml_get_nodes_by_attribute_key(self->tree, NULL, self, key_str, key_len, NULL);
350			}
351	96		result = collection_to_blessed_array(collection);
352	96		break;
353			}
354
355	160	100	if (collection)
356	152		myhtml_collection_destroy(collection);
357
358	160		return result;
359			}
360
361	2093		static long hv_get_int_value(HV hv, const char key, int length, long def) {
362	2093	100	if (hv) {
363	231		SV **sv = hv_fetch(hv, key, length, 0);
364	231	100	if (sv && *sv)
		50
365	10	50	return SvIV(*sv);
366			}
367	2083		return def;
368			}
369
370	598		static myencoding_t hv_get_encoding_value(HV hv, const char key, int length, myencoding_t def) {
371	598	100	if (hv) {
372	66		SV **sv = hv_fetch(hv, key, length, 0);
373	66	100	if (sv && *sv) {
		50
374	15		SV encoding = sv_stringify(sv);
375
376			STRLEN enc_length;
377	15	50	const char *enc_str = SvPV_const(encoding, enc_length);
378
379	15	50	if (enc_length > 0) {
380			myencoding_t enc_id;
381	15	50	if (isdigit(enc_str[0])) { // May be encoding id
382	0	0	enc_id = SvIV(encoding);
383	0	0	if (enc_id == MyENCODING_AUTO \|\| enc_id == MyENCODING_DEFAULT \|\| enc_id == MyENCODING_NOT_DETERMINED)
		0
		0
384	0		return enc_id;
385	0	0	if (!myencoding_name_by_id(enc_id, NULL))
386	0		return MyENCODING_NOT_DETERMINED;
387			} else { // May be encoding name
388	15	50	if (!myencoding_by_name(enc_str, enc_length, &enc_id)) {
389	0	0	if (enc_length == 4 && strcasecmp(enc_str, "auto") == 0)
		0
390	0		return MyENCODING_AUTO;
391	0	0	if (enc_length == 7 && strcasecmp(enc_str, "default") == 0)
		0
392	0		return MyENCODING_DEFAULT;
393	0		return MyENCODING_NOT_DETERMINED;
394			}
395			}
396	15		return enc_id;
397			}
398			}
399			}
400	583		return def;
401			}
402
403	299		static int hv_get_utf8_value(HV hv, const char key, int length, int def) {
404	299	100	if (hv) {
405	33		SV **sv = hv_fetch(hv, key, length, 0);
406	33	100	if (sv && *sv) {
		50
407	8		SV encoding = sv_stringify(sv);
408
409			STRLEN enc_length;
410	8	100	const char *enc_str = SvPV_const(encoding, enc_length);
411
412	8	50	if (enc_length > 0) {
413	8	100	if (isdigit(enc_str[0])) {
414	8	50	return SvIV(encoding) != 0;
415	4	50	} else if (length == 4 && strcasecmp(enc_str, "auto") == 0) {
		50
416	4		return 2;
417			}
418	0		return enc_length > 0;
419			}
420			}
421			}
422	291		return def;
423			}
424
425	299		static void html5_dom_parse_options(html5_dom_options_t opts, html5_dom_options_t extend, HV *options) {
426	299	100	opts->threads = hv_get_int_value(options, "threads", 7, extend ? extend->threads : 0);
427	299	100	opts->ignore_whitespace = hv_get_int_value(options, "ignore_whitespace", 17, extend ? extend->ignore_whitespace : 0) > 0;
428	299	100	opts->ignore_doctype = hv_get_int_value(options, "ignore_doctype", 14, extend ? extend->ignore_doctype : 0) > 0;
429	299	100	opts->scripts = hv_get_int_value(options, "scripts", 7, extend ? extend->scripts : 0) > 0;
430	299	100	opts->encoding = hv_get_encoding_value(options, "encoding", 8, extend ? extend->encoding : MyENCODING_AUTO);
431	299	100	opts->default_encoding = hv_get_encoding_value(options, "default_encoding", 16, extend ? extend->default_encoding : MyENCODING_DEFAULT);
432	299	100	opts->encoding_use_meta = hv_get_int_value(options, "encoding_use_meta", 17, extend ? extend->encoding_use_meta : 1) > 0;
433	299	100	opts->encoding_use_bom = hv_get_int_value(options, "encoding_use_bom", 16, extend ? extend->encoding_use_bom : 1) > 0;
434	299	100	opts->encoding_prescan_limit = hv_get_int_value(options, "encoding_prescan_limit", 22, extend ? extend->encoding_prescan_limit : 1024);
435	299	100	opts->utf8 = hv_get_utf8_value(options, "utf8", 4, extend ? extend->utf8 : 2);
436
437			#ifdef MyCORE_BUILD_WITHOUT_THREADS
438			opts->threads = 0;
439			#endif
440	299		}
441
442	249		static void html5_dom_check_options(CV cv, html5_dom_options_t opts) {
443	249	50	if (opts->encoding == MyENCODING_NOT_DETERMINED)
444	0	0	sub_croak(cv, "invalid encoding value");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
445	249	50	if (opts->default_encoding == MyENCODING_NOT_DETERMINED \|\| opts->default_encoding == MyENCODING_AUTO)
		50
446	0	0	sub_croak(cv, "invalid default_encoding value");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
447	249	50	if (opts->threads < 0)
448	0	0	sub_croak(cv, "invalid threads count");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
449	249	50	if (opts->encoding_prescan_limit < 0)
450	0	0	sub_croak(cv, "invalid encoding_prescan_limit value");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
451	249		}
452
453			// selectors to AST serialization
454			static void html5_dom_css_serialize_entry(html5_css_selector_t self, mycss_selectors_list_t selector, mycss_selectors_entry_t entry, AV result);
455
456	1		static void html5_dom_css_serialize_selector(html5_css_selector_t self, mycss_selectors_list_t selector, AV *result) {
457	2	100	while (selector) {
458	6	100	for (size_t i = 0; i < selector->entries_list_length; ++i) {
459	5		mycss_selectors_entries_list_t *entries = &selector->entries_list[i];
460	5		AV *chain = newAV();
461	5		html5_dom_css_serialize_entry(self, selector, entries->entry, chain);
462	5		av_push(result, newRV_noinc((SV *) chain));
463			}
464	1		selector = selector->next;
465			}
466	1		}
467
468	6		static void html5_dom_css_serialize_entry(html5_css_selector_t self, mycss_selectors_list_t selector, mycss_selectors_entry_t entry, AV result) {
469			// combinators names
470			static const struct {
471			const char name[16];
472			size_t len;
473			} combinators[] = {
474			{"", 0},
475			{"descendant", 10}, // >>
476			{"child", 5}, // >
477			{"sibling", 7}, // +
478			{"adjacent", 8}, // ~
479			{"column", 6} // \|\|
480			};
481
482			// attribute eq names
483			static const struct {
484			const char name[16];
485			size_t len;
486			} attr_match_names[] = {
487			{"equal", 5}, // =
488			{"include", 7}, // ~=
489			{"dash", 4}, // \|=
490			{"prefix", 6}, // ^=
491			{"suffix", 6}, // $=
492			{"substring", 9} // *=
493			};
494
495	23	100	while (entry) {
496	17	100	if (entry->combinator != MyCSS_SELECTORS_COMBINATOR_UNDEF) {
497	4		HV *data = newHV();
498	4		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "type", 4)), newSVpv_utf8_auto_css(self, "combinator", 10), 0);
499	4		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "value", 5)), newSVpv_utf8_auto_css(self, combinators[entry->combinator].name, combinators[entry->combinator].len), 0);
500	4		av_push(result, newRV_noinc((SV *) data));
501			}
502
503	17		HV *data = newHV();
504
505	17	50	if ((selector->flags) & MyCSS_SELECTORS_FLAGS_SELECTOR_BAD)
506	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "invalid", 7)), newSViv(1), 0);
507
508	17		switch (entry->type) {
509			case MyCSS_SELECTORS_TYPE_ID:
510			case MyCSS_SELECTORS_TYPE_CLASS:
511			case MyCSS_SELECTORS_TYPE_ELEMENT:
512			case MyCSS_SELECTORS_TYPE_PSEUDO_CLASS:
513			case MyCSS_SELECTORS_TYPE_PSEUDO_ELEMENT:
514			{
515	14		switch (entry->type) {
516			case MyCSS_SELECTORS_TYPE_ELEMENT:
517	10		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "type", 4)), newSVpv_utf8_auto_css(self, "tag", 3), 0);
518	10		break;
519			case MyCSS_SELECTORS_TYPE_ID:
520	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "type", 4)), newSVpv_utf8_auto_css(self, "id", 2), 0);
521	0		break;
522			case MyCSS_SELECTORS_TYPE_CLASS:
523	2		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "type", 4)), newSVpv_utf8_auto_css(self, "class", 5), 0);
524	2		break;
525			case MyCSS_SELECTORS_TYPE_PSEUDO_CLASS:
526	2		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "type", 4)), newSVpv_utf8_auto_css(self, "pseudo-class", 12), 0);
527	2		break;
528			case MyCSS_SELECTORS_TYPE_PSEUDO_ELEMENT:
529	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "type", 4)), newSVpv_utf8_auto_css(self, "pseudo-element", 14), 0);
530	0		break;
531			}
532
533	14	50	if (entry->key)
534	14	50	hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "value", 5)), newSVpv_utf8_auto_css(self, entry->key->length ? entry->key->data : "", entry->key->length), 0);
535			}
536	14		break;
537			case MyCSS_SELECTORS_TYPE_ATTRIBUTE:
538			{
539	2		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "type", 4)), newSVpv_utf8_auto_css(self, "attribute", 9), 0);
540
541			/* key */
542	2	50	if (entry->key)
543	2	50	hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "name", 4)), newSVpv_utf8_auto_css(self, entry->key->length ? entry->key->data : "", entry->key->length), 0);
544
545			/* value */
546	2	50	if (mycss_selector_value_attribute(entry->value)->value) {
547	2		mycore_string_t *str_value = mycss_selector_value_attribute(entry->value)->value;
548	2	50	hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "value", 5)), newSVpv_utf8_auto_css(self, str_value->length ? str_value->data : "", str_value->length), 0);
549			} else {
550	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "value", 5)), newSVpv_utf8_auto_css(self, "", 0), 0);
551			}
552
553			/* match */
554	2		int match = mycss_selector_value_attribute(entry->value)->match;
555	2		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "match", 5)), newSVpv_utf8_auto_css(self, attr_match_names[match].name, attr_match_names[match].len), 0);
556
557			/* modificator */
558	2	50	if (mycss_selector_value_attribute(entry->value)->mod & MyCSS_SELECTORS_MOD_I) {
559	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "ignoreCase", 10)), newSViv(1), 0);
560			} else {
561	2		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "ignoreCase", 10)), newSViv(0), 0);
562			}
563			}
564	2		break;
565			case MyCSS_SELECTORS_TYPE_PSEUDO_CLASS_FUNCTION:
566			{
567	1		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "type", 4)), newSVpv_utf8_auto_css(self, "function", 8), 0);
568
569	1		switch (entry->sub_type) {
570			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_CONTAINS:
571			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_HAS:
572			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_NOT:
573			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_MATCHES:
574			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_CURRENT:
575			{
576	0		switch (entry->sub_type) {
577			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_CONTAINS:
578	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "name", 4)), newSVpv_utf8_auto_css(self, "contains", 8), 0);
579	0		break;
580			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_HAS:
581	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "name", 4)), newSVpv_utf8_auto_css(self, "has", 3), 0);
582	0		break;
583			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_NOT:
584	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "name", 4)), newSVpv_utf8_auto_css(self, "not", 3), 0);
585	0		break;
586			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_MATCHES:
587	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "name", 4)), newSVpv_utf8_auto_css(self, "matches", 7), 0);
588	0		break;
589			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_CURRENT:
590	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "name", 4)), newSVpv_utf8_auto_css(self, "current", 7), 0);
591	0		break;
592			}
593
594	0		AV *value = newAV();
595	0		html5_dom_css_serialize_selector(self, entry->value, value);
596	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "value", 5)), newRV_noinc((SV *) value), 0);
597			}
598	0		break;
599
600			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_NTH_CHILD:
601			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_NTH_LAST_CHILD:
602			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_NTH_COLUMN:
603			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_NTH_LAST_COLUMN:
604			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_NTH_OF_TYPE:
605			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_NTH_LAST_OF_TYPE:
606			{
607	1		mycss_an_plus_b_entry_t *a_plus_b = mycss_selector_value_an_plus_b(entry->value);
608	1		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "name", 4)), newSVpv_utf8_auto_css(self, "nth-child", 9), 0);
609	1		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "a", 1)), newSViv(a_plus_b->a), 0);
610	1		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "b", 1)), newSViv(a_plus_b->b), 0);
611
612	1	50	if (a_plus_b->of) {
613	0		AV *of = newAV();
614	0		html5_dom_css_serialize_selector(self, a_plus_b->of, of);
615	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "of", 2)), newRV_noinc((SV *) of), 0);
616			}
617			}
618	1		break;
619
620			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_DIR:
621			{
622	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "name", 4)), newSVpv_utf8_auto_css(self, "dir", 3), 0);
623	0	0	if (entry->value) {
624	0		mycore_string_t *str_fname = mycss_selector_value_string(entry->value);
625	0	0	hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "value", 5)), newSVpv_utf8_auto_css(self, str_fname->length ? str_fname->data : "", str_fname->length), 0);
626			} else {
627	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "value", 5)), newSVpv_utf8_auto_css(self, "", 0), 0);
628			}
629			}
630	0		break;
631
632			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_DROP:
633			{
634	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "name", 4)), newSVpv_utf8_auto_css(self, "drop", 4), 0);
635	0		mycss_selectors_function_drop_type_t drop_val = mycss_selector_value_drop(entry->value);
636
637	0		AV *langs = newAV();
638	0	0	if (drop_val & MyCSS_SELECTORS_FUNCTION_DROP_TYPE_ACTIVE)
639	0		av_push(langs, newSVpv_utf8_auto_css(self, "active", 6));
640	0	0	if (drop_val & MyCSS_SELECTORS_FUNCTION_DROP_TYPE_VALID)
641	0		av_push(langs, newSVpv_utf8_auto_css(self, "valid", 5));
642	0	0	if (drop_val & MyCSS_SELECTORS_FUNCTION_DROP_TYPE_INVALID)
643	0		av_push(langs, newSVpv_utf8_auto_css(self, "invalid", 7));
644	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "value", 5)), newRV_noinc((SV *) langs), 0);
645			}
646	0		break;
647
648			case MyCSS_SELECTORS_SUB_TYPE_PSEUDO_CLASS_FUNCTION_LANG:
649			{
650	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "name", 4)), newSVpv_utf8_auto_css(self, "lang", 4), 0);
651	0		AV *langs = newAV();
652	0	0	if (entry->value) {
653	0		mycss_selectors_value_lang_t *lang = mycss_selector_value_lang(entry->value);
654	0	0	while (lang) {
655	0	0	av_push(langs, newSVpv_utf8_auto_css(self, lang->str.length ? lang->str.data : "", lang->str.length));
656	0		lang = lang->next;
657			}
658			}
659	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "value", 5)), newRV_noinc((SV *) langs), 0);
660			}
661	0		break;
662
663			default:
664	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "name", 4)), newSVpv_utf8_auto_css(self, "unknown", 7), 0);
665	0		break;
666			}
667			}
668	1		break;
669
670			default:
671	0		hv_store_ent(data, sv_2mortal(newSVpv_utf8_auto_css(self, "type", 4)), newSVpv_utf8_auto_css(self, "unknown", 7), 0);
672	0		break;
673			}
674
675	17		av_push(result, newRV_noinc((SV *) data));
676
677	17		entry = entry->next;
678			}
679	6		}
680
681	8		static html5_dom_async_result html5_dom_async_parse_init(CV cv, html5_dom_parser_t self, SV html, HV *options, int ev_fd) {
682	8		html5_dom_async_result result = (html5_dom_async_result ) safemalloc(sizeof(html5_dom_async_result));
683	8		memset(result, 0, sizeof(html5_dom_async_result));
684
685	8		result->fd = ev_fd;
686
687			// extends options
688	8		html5_dom_parse_options(&result->opts, &self->opts, options);
689	8		html5_dom_check_options(cv, &result->opts);
690
691			// Auto detect UTF8 flag
692	8	50	if (result->opts.utf8 == 2)
693	8		result->opts.utf8 = SvUTF8(html) ? 1 : 0;
694
695			mystatus_t status;
696
697			STRLEN html_len;
698	8	50	const char *html_str = SvPV_const(html, html_len);
699
700			// copy html source
701	8		result->html = safemalloc(html_len);
702	8		result->length = html_len;
703	8		memcpy(result->html, html_str, html_len);
704
705			#ifndef MyCORE_BUILD_WITHOUT_THREADS
706			// create parsing thread
707	8		result->thread = mythread_create();
708	8		status = mythread_init(result->thread, MyTHREAD_TYPE_STREAM, 1, 0);
709
710	8	50	if (status) {
711	0		mythread_destroy(result->thread, NULL, NULL, true);
712	0		safefree(result->html);
713	0		safefree(result);
714	0	0	sub_croak(cv, "mythread_init failed: %d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
715	0		return NULL;
716			}
717
718	8		result->thread->context = result;
719
720	8		status = myhread_entry_create(result->thread, html5_dom_mythread_function, html5_dom_async_parse_worker, MyTHREAD_OPT_STOP);
721	8		mythread_option_set(result->thread, MyTHREAD_OPT_QUIT);
722
723	8	50	if (status) {
724	0		mythread_destroy(result->thread, NULL, NULL, true);
725	0		safefree(result->html);
726	0		safefree(result);
727	0	0	sub_croak(cv, "myhread_entry_create failed: %d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
728	0		return NULL;
729			}
730
731			// start parsing thread
732	8		status = mythread_resume(result->thread, MyTHREAD_OPT_UNDEF);
733
734	8	50	if (status) {
735	0		mythread_destroy(result->thread, NULL, NULL, true);
736	0		safefree(result->html);
737	0		safefree(result);
738	0	0	sub_croak(cv, "mythread_resume failed: %d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
739	0		return NULL;
740			}
741			#else
742			// sync fallback
743			html5_dom_async_parse(result);
744			#endif
745
746	8		return result;
747			}
748
749	8		static SV html5_dom_async_parse_done(CV cv, html5_dom_async_result *result, bool wait) {
750	8	100	if (!wait && !result->done)
		50
751	0		return NULL;
752
753			#ifndef MyCORE_BUILD_WITHOUT_THREADS
754	8	100	if (result->thread)
755	6		result->thread = mythread_destroy(result->thread, NULL, NULL, true);
756			#endif
757
758	8	100	if (result->html) {
759	6		result->html = NULL;
760	6		safefree(result->html);
761			}
762
763	8	50	if (result->status) {
764	0	0	sub_croak(cv, "parse failed: %d (%s)", result->status, modest_strerror(result->status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
765	0		return NULL;
766			}
767
768	8	100	if (result->tree) {
769			DOM_GC_TRACE("DOM::new");
770	6		SV *myhtml_sv = pack_pointer("HTML5::DOM", result->parser);
771	6		result->tree_sv = (void *) create_tree_object(result->tree, SvRV(myhtml_sv), result->parser, false, result->opts.utf8);
772	6		result->tree = NULL;
773	6		SvREFCNT_dec(myhtml_sv);
774			}
775
776	8	50	return result->tree_sv ? SvREFCNT_inc((SV *) result->tree_sv) : &PL_sv_undef;
777			}
778
779			MODULE = HTML5::DOM PACKAGE = HTML5::DOM
780
781			#################################################################
782			# HTML5::DOM (Parser)
783			#################################################################
784			HTML5::DOM
785			new(SV CLASS, HV options = NULL)
786			CODE:
787			DOM_GC_TRACE("DOM::new");
788			mystatus_t status;
789
790	107		html5_dom_options_t opts = {0};
791	107		html5_dom_parse_options(&opts, NULL, options);
792	107		html5_dom_check_options(cv, &opts);
793
794	107		html5_dom_parser_t *self = html5_dom_parser_new(&opts);
795
796	107		self->myhtml = myhtml_create();
797
798	107	100	if (self->opts.threads <= 1) {
799	104		status = myhtml_init(self->myhtml, MyHTML_OPTIONS_PARSE_MODE_SINGLE, 1, 0);
800			} else {
801	3		status = myhtml_init(self->myhtml, MyHTML_OPTIONS_DEFAULT, self->opts.threads, 0);
802			}
803
804	107	50	if (status) {
805	0		self = html5_dom_parser_free(self);
806	0	0	sub_croak(cv, "myhtml_init failed: %d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
807			}
808
809	107		RETVAL = self;
810			OUTPUT:
811			RETVAL
812
813			# Init html chunk parser
814			SV *
815			parseChunkStart(HTML5::DOM self, HV *options = NULL)
816			CODE:
817			mystatus_t status;
818
819	2		html5_dom_parse_options(&self->chunk_opts, &self->opts, options);
820	2		html5_dom_check_options(cv, &self->chunk_opts);
821
822	2	50	if (self->tree) {
823	0	0	if (self->tree->context) {
824	0		html5_dom_tree_t tree_context = (html5_dom_tree_t ) self->tree;
825	0		tree_context->used = false;
826			} else {
827	0		myhtml_tree_destroy(self->tree);
828			}
829
830	0		self->tree = NULL;
831			}
832
833	2		self->tree = myhtml_tree_create();
834	2		status = myhtml_tree_init(self->tree, self->myhtml);
835	2	50	if (status) {
836	0		myhtml_tree_destroy(self->tree);
837	0	0	sub_croak(cv, "myhtml_tree_init failed: %d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
838			}
839
840	2		self->chunks = 0;
841	2	50	myhtml_encoding_set(self->tree, self->chunk_opts.encoding == MyENCODING_AUTO ? self->chunk_opts.default_encoding : self->chunk_opts.encoding);
842
843	2		RETVAL = SvREFCNT_inc(ST(0));
844			OUTPUT:
845			RETVAL
846
847			# Parse html chunk
848			SV *
849			parseChunk(HTML5::DOM self, SV html, HV options = NULL)
850			CODE:
851			mystatus_t status;
852
853	5		html = sv_stringify(html);
854
855	5	50	if (!self->tree) {
856	0		self->tree = myhtml_tree_create();
857	0		status = myhtml_tree_init(self->tree, self->myhtml);
858	0	0	if (status) {
859	0		myhtml_tree_destroy(self->tree);
860	0	0	sub_croak(cv, "myhtml_tree_init failed: %d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
861			}
862	0		memcpy(&self->opts, &self->chunk_opts, sizeof(html5_dom_options_t));
863	0	0	myhtml_encoding_set(self->tree, self->chunk_opts.encoding == MyENCODING_AUTO ? self->chunk_opts.default_encoding : self->chunk_opts.encoding);
864	0		self->chunks = 0;
865			}
866
867			STRLEN html_length;
868	5	50	const char *html_str = SvPV_const(html, html_length);
869
870			// Try detect encoding only in first chunk
871	5	100	if (!self->chunks) {
872	2		myhtml_encoding_set(self->tree, html5_dom_auto_encoding(&self->chunk_opts, &html_str, &html_length));
873
874			// Auto detect UTF8 flag
875	2	50	if (self->chunk_opts.utf8 == 2)
876	2		self->chunk_opts.utf8 = SvUTF8(html) ? 1 : 0;
877
878	2		html5_dom_apply_tree_options(self->tree, &self->chunk_opts);
879			}
880
881	5		++self->chunks;
882
883	5		status = myhtml_parse_chunk(self->tree, html_str, html_length);
884	5	50	if (status) {
885	0	0	if (!self->tree->context)
886	0		myhtml_tree_destroy(self->tree);
887	0	0	sub_croak(cv, "myhtml_parse_chunk failed: %d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
888			}
889
890	5		RETVAL = SvREFCNT_inc(ST(0));
891			OUTPUT:
892			RETVAL
893
894			# Get current Tree from current chunked parsing session
895			SV *
896			parseChunkTree(HTML5::DOM self)
897			CODE:
898			mystatus_t status;
899
900	3	50	if (!self->tree)
901	0	0	sub_croak(cv, "call parseChunkStart or parseChunk first");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
902
903	3		RETVAL = create_tree_object(self->tree, SvRV(ST(0)), self, true, self->chunk_opts.utf8);
904			OUTPUT:
905			RETVAL
906
907			# End of parse chunks (return Tree)
908			SV *
909			parseChunkEnd(HTML5::DOM self)
910			CODE:
911			mystatus_t status;
912
913	2	50	if (!self->tree)
914	0	0	sub_croak(cv, "call parseChunkStart or parseChunk first");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
915
916	2		status = myhtml_parse_chunk_end(self->tree);
917	2	50	if (status) {
918	0	0	if (!self->tree->context)
919	0		myhtml_tree_destroy(self->tree);
920	0	0	sub_croak(cv, "myhtml_parse_chunk failed:%d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
921			}
922
923	2	50	if (self->tree) {
924	2		html5_dom_tree_t tree_context = (html5_dom_tree_t ) self->tree;
925	2		tree_context->used = false;
926			}
927
928	2		RETVAL = create_tree_object(self->tree, SvRV(ST(0)), self, false, self->chunk_opts.utf8);
929	2		self->tree = NULL;
930			OUTPUT:
931			RETVAL
932
933			# Parse full html
934			SV *
935			parse(HTML5::DOM self, SV html, HV options = NULL)
936			CODE:
937			mystatus_t status;
938	118		html5_dom_options_t opts = {0};
939
940	118		html5_dom_parse_options(&opts, &self->opts, options);
941	118		html5_dom_check_options(cv, &opts);
942
943	118		html = sv_stringify(html);
944
945	118		myhtml_tree_t *tree = myhtml_tree_create();
946	118		status = myhtml_tree_init(tree, self->myhtml);
947	118	50	if (status) {
948	0		myhtml_tree_destroy(tree);
949	0	0	sub_croak(cv, "myhtml_tree_init failed: %d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
950			}
951
952			STRLEN html_length;
953	118	50	const char *html_str = SvPV_const(html, html_length);
954
955	118		myencoding_t encoding = html5_dom_auto_encoding(&opts, &html_str, &html_length);
956
957			// Auto detect UTF8 flag
958	118	100	if (opts.utf8 == 2)
959	114		opts.utf8 = SvUTF8(html) ? 1 : 0;
960
961	118		html5_dom_apply_tree_options(tree, &opts);
962
963	118		status = myhtml_parse(tree, encoding, html_str, html_length);
964	118	50	if (status) {
965	0		myhtml_tree_destroy(tree);
966	0	0	sub_croak(cv, "myhtml_parse failed: %d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
967			}
968
969	118		RETVAL = create_tree_object(tree, SvRV(ST(0)), self, false, opts.utf8);
970			OUTPUT:
971			RETVAL
972
973			# Parse full html (in background)
974			HTML5::DOM::AsyncResult
975			_parseAsync(HTML5::DOM self, SV html, HV options = NULL, int ev_fd = -1)
976			CODE:
977			DOM_GC_TRACE("DOM::AsyncResult::new");
978	8		html = sv_stringify(html);
979	8		RETVAL = html5_dom_async_parse_init(cv, self, html, options, ev_fd);
980			OUTPUT:
981			RETVAL
982
983			void
984			DESTROY(HTML5::DOM self)
985			CODE:
986			DOM_GC_TRACE("DOM::DESTROY (refs=%d)", SvREFCNT(SvRV(ST(0))));
987	113		html5_dom_parser_free(self);
988
989
990
991			#################################################################
992			# HTML5::DOM::AsyncResult
993			#################################################################
994			MODULE = HTML5::DOM PACKAGE = HTML5::DOM::AsyncResult
995
996			# Wait for parsing done and return HTML5::DOM::Tree
997			SV *
998			wait(HTML5::DOM::AsyncResult self)
999			CODE:
1000	6		RETVAL = html5_dom_async_parse_done(cv, self, true);
1001			OUTPUT:
1002			RETVAL
1003
1004			# True if parsing done
1005			int
1006			parsed(HTML5::DOM::AsyncResult self)
1007			CODE:
1008	142		RETVAL = self->done ? 1 : 0;
1009			OUTPUT:
1010			RETVAL
1011
1012			# Return HTML5::DOM::Tree if parsing done
1013			SV *
1014			tree(HTML5::DOM::AsyncResult self)
1015			CODE:
1016	2		RETVAL = html5_dom_async_parse_done(cv, self, false);
1017			OUTPUT:
1018			RETVAL
1019
1020			void
1021			DESTROY(HTML5::DOM::AsyncResult self)
1022			CODE:
1023			DOM_GC_TRACE("DOM::AsyncResult::DESTROY (refs=%d)", SvREFCNT(SvRV(ST(0))));
1024	8	100	if (self->thread)
1025	2		self->thread = mythread_destroy(self->thread, NULL, NULL, true);
1026
1027	8	100	if (self->tree) {
1028	2		self->tree = myhtml_tree_destroy(self->tree);
1029
1030	2	50	if (self->parser)
1031	2		self->parser = html5_dom_parser_free(self->parser);
1032			}
1033
1034	8	100	if (self->tree_sv)
1035	6		SvREFCNT_dec((SV *) self->tree_sv);
1036
1037	8	100	if (self->html)
1038	2		safefree(self->html);
1039
1040	8		safefree(self);
1041
1042			#################################################################
1043			# HTML5::DOM::Tree
1044			#################################################################
1045			MODULE = HTML5::DOM PACKAGE = HTML5::DOM::Tree
1046
1047			SV *
1048			body(HTML5::DOM::Tree self)
1049			CODE:
1050	148		RETVAL = node_to_sv(myhtml_tree_get_node_body(self->tree));
1051			OUTPUT:
1052			RETVAL
1053
1054			SV *
1055			createElement(HTML5::DOM::Tree self, SV tag, SV ns_name = NULL)
1056			CODE:
1057			// Get namespace id by name
1058	36		myhtml_namespace_t ns = MyHTML_NAMESPACE_HTML;
1059	36	100	if (ns_name) {
1060	2		ns_name = sv_stringify(ns_name);
1061			STRLEN ns_name_len;
1062	2	50	const char *ns_name_str = SvPV_const(ns_name, ns_name_len);
1063	2	50	if (!myhtml_namespace_id_by_name(ns_name_str, ns_name_len, &ns))
1064	2	0	sub_croak(cv, "unknown namespace: %s", ns_name_str);
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1065			}
1066
1067			// Get tag id by name
1068	36		tag = sv_stringify(tag);
1069			STRLEN tag_len;
1070	36	50	const char *tag_str = SvPV_const(tag, tag_len);
1071	36		myhtml_tag_id_t tag_id = html5_dom_tag_id_by_name(self->tree, tag_str, tag_len, true);
1072
1073			// create new node
1074	36		myhtml_tree_node_t *node = myhtml_node_create(self->tree, tag_id, ns);
1075
1076			// if void - mark self-closed
1077	36	100	if (myhtml_node_is_void_element(node)) {
1078	1	50	if (!node->token) {
1079	1		node->token = myhtml_token_node_create(node->tree->token, self->tree->mcasync_rules_token_id);
1080	1	50	if (!node->token) {
1081	0		myhtml_tree_node_delete(node);
1082	0	0	sub_croak(cv, "myhtml_token_node_create failed");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1083			}
1084			}
1085	1		node->token->type \|= MyHTML_TOKEN_TYPE_CLOSE_SELF \| MyHTML_TOKEN_TYPE_DONE;
1086			}
1087
1088	36		RETVAL = node_to_sv(node);
1089			OUTPUT:
1090			RETVAL
1091
1092			SV *
1093			createComment(HTML5::DOM::Tree self, SV *text)
1094			CODE:
1095	6		text = sv_stringify(text);
1096			STRLEN text_len;
1097	6	50	const char *text_str = SvPV_const(text, text_len);
1098	6		myhtml_tree_node_t *node = myhtml_node_create(self->tree, MyHTML_TAG__COMMENT, MyHTML_NAMESPACE_HTML);
1099	6		myhtml_node_text_set(node, text_str, text_len, MyENCODING_DEFAULT);
1100	6		RETVAL = node_to_sv(node);
1101			OUTPUT:
1102			RETVAL
1103
1104			SV *
1105			createTextNode(HTML5::DOM::Tree self, SV *text)
1106			CODE:
1107	6		text = sv_stringify(text);
1108			STRLEN text_len;
1109	6	50	const char *text_str = SvPV_const(text, text_len);
1110	6		myhtml_tree_node_t *node = myhtml_node_create(self->tree, MyHTML_TAG__TEXT, MyHTML_NAMESPACE_HTML);
1111	6		myhtml_node_text_set(node, text_str, text_len, MyENCODING_DEFAULT);
1112	6		RETVAL = node_to_sv(node);
1113			OUTPUT:
1114			RETVAL
1115
1116			# Parse fragment
1117			SV parseFragment(HTML5::DOM::Tree self, SV text, SV tag = NULL, SV ns = NULL, HV *options = NULL)
1118			CODE:
1119	14		text = sv_stringify(text);
1120			STRLEN text_len;
1121	14	50	const char *text_str = SvPV_const(text, text_len);
1122
1123			mystatus_t status;
1124	14		myhtml_namespace_t ns_id = MyHTML_NAMESPACE_HTML;
1125	14		myhtml_tag_id_t tag_id = MyHTML_TAG_DIV;
1126
1127	14	50	if (ns) {
1128	0		ns = sv_stringify(ns);
1129			STRLEN ns_len;
1130	0	0	const char *ns_str = SvPV_const(ns, ns_len);
1131
1132	0	0	if (!myhtml_namespace_id_by_name(ns_str, ns_len, &ns_id))
1133	0	0	sub_croak(cv, "unknown namespace: %s", ns_str);
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1134			}
1135
1136	14	100	if (tag) {
1137	10		tag = sv_stringify(tag);
1138			STRLEN tag_len;
1139	10	50	const char *tag_str = SvPV_const(tag, tag_len);
1140	10		tag_id = html5_dom_tag_id_by_name(self->tree, tag_str, tag_len, true);
1141			}
1142
1143	14		html5_dom_options_t opts = {0};
1144	14		html5_dom_parse_options(&opts, &self->parser->opts, options);
1145	14		html5_dom_check_options(cv, &opts);
1146
1147	14		myhtml_tree_node_t *node = html5_dom_parse_fragment(&opts, self->tree, tag_id, ns_id, text_str, text_len, NULL, &status);
1148	14	50	if (status)
1149	0	0	sub_croak(cv, "myhtml_parse_fragment failed: %d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1150
1151	14		RETVAL = node_to_sv(node);
1152			OUTPUT:
1153			RETVAL
1154
1155			SV *
1156			head(HTML5::DOM::Tree self)
1157			CODE:
1158	4		RETVAL = node_to_sv(myhtml_tree_get_node_head(self->tree));
1159			OUTPUT:
1160			RETVAL
1161
1162			SV *
1163			root(HTML5::DOM::Tree self)
1164			CODE:
1165	3		RETVAL = node_to_sv(myhtml_tree_get_node_html(self->tree));
1166			OUTPUT:
1167			RETVAL
1168
1169			SV *
1170			document(HTML5::DOM::Tree self)
1171			CODE:
1172	181		RETVAL = node_to_sv(myhtml_tree_get_document(self->tree));
1173			OUTPUT:
1174			RETVAL
1175
1176			SV *
1177			find(HTML5::DOM::Tree self, SV query, SV combinator = NULL)
1178			ALIAS:
1179			at = 1
1180			querySelector = 2
1181			querySelectorAll = 3
1182			CODE:
1183	90		myhtml_tree_node_t *scope = myhtml_tree_get_document(self->tree);
1184	90	50	if (scope) {
1185	90	100	RETVAL = html5_node_find(cv, self->parser, scope, query, combinator, ix == 1 \|\| ix == 2);
		100
1186			} else {
1187	0		RETVAL = &PL_sv_undef;
1188			}
1189			OUTPUT:
1190			RETVAL
1191
1192			# Wait for parsing done (when async mode) - removed
1193			SV *
1194			wait(HTML5::DOM::Tree self)
1195			CODE:
1196	1		RETVAL = SvREFCNT_inc(ST(0));
1197			OUTPUT:
1198			RETVAL
1199
1200			# True if parsing done (when async mode) - removed
1201			int
1202			parsed(HTML5::DOM::Tree self)
1203			CODE:
1204	1		RETVAL = 1;
1205			OUTPUT:
1206			RETVAL
1207
1208			# utf8(flag) - enable or disable utf8 mode
1209			# utf8() - get status of utf8 mode (0 - disabled, 1 - enabled)
1210			SV *
1211			utf8(HTML5::DOM::Tree self, SV *value = NULL)
1212			CODE:
1213	1	50	if (!value) {
1214	0		RETVAL = newSViv(self->utf8 ? 1 : 0);
1215			} else {
1216	1		value = sv_stringify(value);
1217
1218			STRLEN enc_length;
1219	1	50	const char *enc_str = SvPV_const(value, enc_length);
1220
1221	1	50	if (enc_length > 0) {
1222	1	50	if (isdigit(enc_str[0])) {
1223	1	50	self->utf8 = SvIV(value) != 0;
1224			} else {
1225	0		self->utf8 = 1;
1226			}
1227			}
1228
1229	1		self->utf8 = 0;
1230
1231	1		RETVAL = SvREFCNT_inc(ST(0));
1232			}
1233			OUTPUT:
1234			RETVAL
1235
1236			# findTag(val), getElementsByTagName(val) - get nodes by tag name
1237			# findClass(val), getElementsByClassName(val) - get nodes by class name
1238			# findId(val), getElementById(val) - get node by id
1239			# findAttr(key), getElementByAttribute(key) - get nodes by attribute key
1240			# findAttr(key, val, case, cmp), getElementByAttribute(key, val, case, cmp) - get nodes by attribute value
1241			SV *
1242			findTag(HTML5::DOM::Tree self, SV key, SV val = NULL, bool icase = false, SV *cmp = NULL)
1243			ALIAS:
1244			getElementsByTagName = 1
1245			findClass = 2
1246			getElementsByClassName = 3
1247			findId = 4
1248			getElementById = 5
1249			findAttr = 6
1250			getElementByAttribute = 7
1251			CODE:
1252	80		RETVAL = html5_node_simple_find(cv, myhtml_tree_get_document(self->tree), key, val, cmp, icase, ix);
1253			OUTPUT:
1254			RETVAL
1255
1256			# Get compat node
1257			SV *
1258			compatMode(HTML5::DOM::Tree self)
1259			CODE:
1260	2	100	if (self->tree->compat_mode == MyHTML_TREE_COMPAT_MODE_QUIRKS) {
1261			// if the document is in quirks mode.
1262	1		RETVAL = newSVpv_utf8_auto(self->tree, "BackCompat", 10);
1263			} else {
1264			// if the document is in no-quirks (also known as "standards") mode or limited-quirks (also known as "almost standards") mode.
1265	1		RETVAL = newSVpv_utf8_auto(self->tree, "CSS1Compat", 10);
1266			}
1267			OUTPUT:
1268			RETVAL
1269
1270			# Get current tree encoding name
1271			SV *
1272			encoding(HTML5::DOM::Tree self)
1273			CODE:
1274	1		size_t length = 0;
1275	1		const char *name = myencoding_name_by_id(self->tree->encoding, &length);
1276	1	50	RETVAL = newSVpv_utf8_auto(self->tree, name ? name : "", length);
1277			OUTPUT:
1278			RETVAL
1279
1280			# Get current tree encoding id
1281			SV *
1282			encodingId(HTML5::DOM::Tree self)
1283			CODE:
1284	1		RETVAL = newSViv(self->tree->encoding);
1285			OUTPUT:
1286			RETVAL
1287
1288			# Tag id by tag name
1289			SV *
1290			tag2id(HTML5::DOM::Tree self, SV *tag)
1291			CODE:
1292	4		tag = sv_stringify(tag);
1293			STRLEN tag_len;
1294	4	50	const char *tag_str = SvPV_const(tag, tag_len);
1295	4		RETVAL = newSViv(html5_dom_tag_id_by_name(self->tree, tag_str, tag_len, false));
1296			OUTPUT:
1297			RETVAL
1298
1299			# Tag name by tag id
1300			SV *
1301			id2tag(HTML5::DOM::Tree self, int tag_id)
1302			CODE:
1303	2		RETVAL = &PL_sv_undef;
1304	2		const myhtml_tag_context_t *tag_ctx = myhtml_tag_get_by_id(self->tree->tags, tag_id);
1305	2	100	if (tag_ctx)
1306	1	50	RETVAL = newSVpv_utf8_auto(self->tree, tag_ctx->name ? tag_ctx->name : "", tag_ctx->name_length);
1307			OUTPUT:
1308			RETVAL
1309
1310			# Namespace id by namepsace name
1311			SV *
1312			namespace2id(HTML5::DOM::Tree self, SV *ns)
1313			CODE:
1314	3		ns = sv_stringify(ns);
1315			STRLEN ns_len;
1316	3	50	const char *ns_str = SvPV_const(ns, ns_len);
1317
1318			myhtml_namespace_t ns_id;
1319	3	100	if (!myhtml_namespace_id_by_name(ns_str, ns_len, &ns_id))
1320	1		ns_id = MyHTML_NAMESPACE_UNDEF;
1321
1322	3		RETVAL = newSViv(ns_id);
1323			OUTPUT:
1324			RETVAL
1325
1326			# Namespace name by namepsace id
1327			SV *
1328			id2namespace(HTML5::DOM::Tree self, int ns_id)
1329			CODE:
1330	2		size_t ns_len = 0;
1331	2		const char *ns_name = myhtml_namespace_name_by_id(ns_id, &ns_len);
1332	2	100	RETVAL = ns_name ? newSVpv_utf8_auto(self->tree, ns_name, ns_len) : &PL_sv_undef;
1333			OUTPUT:
1334			RETVAL
1335
1336			# Return tree parent parser
1337			SV *
1338			parser(HTML5::DOM::Tree self)
1339			CODE:
1340	6		RETVAL = myhtml_to_sv(self->tree);
1341			OUTPUT:
1342			RETVAL
1343
1344			# Some bad idea to get "uniq id"
1345			SV *
1346			hash(HTML5::DOM::Node self)
1347			CODE:
1348	0		RETVAL = newSViv(PTR2IV(self));
1349			OUTPUT:
1350			RETVAL
1351
1352			# Compare tree reference
1353			bool
1354			isSameTree(HTML5::DOM::Tree self, SV *other_tree)
1355			CODE:
1356	27		RETVAL = false;
1357	27	50	if (sv_derived_from(other_tree, "HTML5::DOM::Tree")) {
1358	27	50	html5_dom_tree_t tree = INT2PTR(html5_dom_tree_t , SvIV((SV*)SvRV(other_tree)));
1359	27	50	if (tree == self)
1360	27		RETVAL = true;
1361			}
1362			OUTPUT:
1363			RETVAL
1364
1365			void
1366			DESTROY(HTML5::DOM::Tree self)
1367			CODE:
1368			DOM_GC_TRACE("DOM::Tree::DESTROY (refs=%d)", SvREFCNT(SvRV(ST(0))));
1369	127		void *context = self->tree->context;
1370	127	100	if (self->used) {
1371	2		self->tree->context = NULL;
1372			} else {
1373	125		myhtml_tree_destroy(self->tree);
1374			}
1375	127		SvREFCNT_dec(self->parent);
1376	127		safefree(context);
1377
1378
1379			#################################################################
1380			# HTML5::DOM::Node
1381			#################################################################
1382			MODULE = HTML5::DOM PACKAGE = HTML5::DOM::Node
1383			# Tag id
1384			SV *
1385			tagId(HTML5::DOM::Node self, SV *new_tag_id = NULL)
1386			CODE:
1387	9	100	if (new_tag_id) {
1388	2	50	const myhtml_tag_context_t *tag_ctx = myhtml_tag_get_by_id(self->tree->tags, SvIV(new_tag_id));
1389	2	100	if (tag_ctx) {
1390	1	50	self->tag_id = SvIV(new_tag_id);
1391			} else {
1392	1	50	sub_croak(cv, "unknown tag id %ld", SvIV(new_tag_id));
		50
		50
		50
		50
		0
		50
		50
		50
		50
		50
		50
1393			}
1394
1395	1		RETVAL = SvREFCNT_inc(ST(0));
1396			} else {
1397	7		RETVAL = newSViv(self->tag_id);
1398			}
1399			OUTPUT:
1400			RETVAL
1401
1402			# Namespace id
1403			SV *
1404			namespaceId(HTML5::DOM::Node self, SV *new_ns_id = NULL)
1405			CODE:
1406	6	100	if (new_ns_id) {
1407	2	50	if (!myhtml_namespace_name_by_id(SvIV(new_ns_id), NULL)) {
		100
1408	1	50	sub_croak(cv, "unknown namespace id %ld", SvIV(new_ns_id));
		50
		50
		50
		50
		0
		50
		50
		50
		50
		50
		50
1409			} else {
1410	1	50	myhtml_node_namespace_set(self, SvIV(new_ns_id));
1411			}
1412	1		RETVAL = SvREFCNT_inc(ST(0));
1413			} else {
1414	4		RETVAL = newSViv(myhtml_node_namespace(self));
1415			}
1416			OUTPUT:
1417			RETVAL
1418
1419			# Tag name
1420			SV *
1421			tag(HTML5::DOM::Node self, SV *new_tag_name = NULL)
1422			ALIAS:
1423			nodeName = 1
1424			tagName = 2
1425			CODE:
1426	37		myhtml_tree_t *tree = self->tree;
1427
1428			// Set new tag name
1429	37	100	if (new_tag_name) {
1430	12		new_tag_name = sv_stringify(new_tag_name);
1431			STRLEN new_tag_name_len;
1432	12	50	const char *new_tag_name_str = SvPV_const(new_tag_name, new_tag_name_len);
1433
1434	12	100	if (!new_tag_name_len)
1435	3	50	sub_croak(cv, "empty tag name not allowed.");
		50
		50
		50
		50
		0
		50
		50
		50
		50
		50
1436
1437	9		myhtml_tag_id_t tag_id = html5_dom_tag_id_by_name(self->tree, new_tag_name_str, new_tag_name_len, true);
1438	9		self->tag_id = tag_id;
1439
1440	9		RETVAL = SvREFCNT_inc(ST(0));
1441			}
1442			// Get tag name
1443			else {
1444	25		RETVAL = &PL_sv_undef;
1445
1446	25	50	if (tree && tree->tags) {
		50
1447	25		const myhtml_tag_context_t *tag_ctx = myhtml_tag_get_by_id(tree->tags, self->tag_id);
1448	25	50	if (tag_ctx) {
1449	25		RETVAL = newSVpv_utf8_auto(self->tree, tag_ctx->name, tag_ctx->name_length);
1450	25	100	if (ix == 1 \|\| ix == 2) {
		100
1451			STRLEN value_len;
1452	11	50	char *value = SvPV(RETVAL, value_len);
1453	2764856	100	for (size_t i = 0; i < value_len; ++i)
1454	2764845		value[i] = toupper(value[i]);
1455			}
1456			}
1457			}
1458			}
1459			OUTPUT:
1460			RETVAL
1461
1462			# Namespace name
1463			SV *
1464			namespace(HTML5::DOM::Node self, SV *new_ns = NULL)
1465			CODE:
1466	6		myhtml_tree_t *tree = self->tree;
1467
1468			// Set new tag namespace
1469	6	100	if (new_ns) {
1470	2		new_ns = sv_stringify(new_ns);
1471			STRLEN new_ns_len;
1472	2	50	const char *new_ns_str = SvPV_const(new_ns, new_ns_len);
1473
1474			myhtml_namespace_t ns;
1475	2	100	if (!myhtml_namespace_id_by_name(new_ns_str, new_ns_len, &ns))
1476	1	50	sub_croak(cv, "unknown namespace: %s", new_ns_str);
		50
		50
		50
		50
		0
		50
		50
		50
		50
		50
1477	1		myhtml_node_namespace_set(self, ns);
1478
1479	1		RETVAL = SvREFCNT_inc(ST(0));
1480			}
1481			// Get namespace name
1482			else {
1483			size_t ns_name_len;
1484	4		const char *ns_name = myhtml_namespace_name_by_id(myhtml_node_namespace(self), &ns_name_len);
1485	4	50	RETVAL = newSVpv_utf8_auto(self->tree, ns_name ? ns_name : "", ns_name_len);
1486			}
1487			OUTPUT:
1488			RETVAL
1489
1490			# Return node parent tree
1491			SV *
1492			tree(HTML5::DOM::Node self)
1493			CODE:
1494	26		RETVAL = tree_to_sv(self->tree);
1495			OUTPUT:
1496			RETVAL
1497
1498			# Non-recursive html serialization (example: )
1499			SV *
1500			nodeHtml(HTML5::DOM::Node self)
1501			CODE:
1502	1		RETVAL = newSVpv_utf8_auto(self->tree, "", 0);
1503	1		myhtml_serialization_node_callback(self, sv_serialization_callback, RETVAL);
1504			OUTPUT:
1505			RETVAL
1506
1507			# Return node type
1508			int
1509			nodeType(HTML5::DOM::Node self)
1510			CODE:
1511	6		html5_dom_tree_t context = (html5_dom_tree_t ) self->tree->context;
1512	6		RETVAL = 0;
1513	6	100	if (self->tag_id != MyHTML_TAG__UNDEF) {
1514	5	100	if (self->tag_id == MyHTML_TAG__TEXT) {
1515	1		RETVAL = TEXT_NODE;
1516	4	100	} else if (self->tag_id == MyHTML_TAG__COMMENT) {
1517	1		RETVAL = COMMENT_NODE;
1518	3	100	} else if (self->tag_id == MyHTML_TAG__DOCTYPE) {
1519	1		RETVAL = DOCUMENT_TYPE_NODE;
1520	2	100	} else if (context->fragment_tag_id && self->tag_id == context->fragment_tag_id) {
		50
1521	1		RETVAL = DOCUMENT_FRAGMENT_NODE;
1522			} else {
1523	5		RETVAL = ELEMENT_NODE;
1524			}
1525			} else {
1526			// Modest myhtml bug - document node has tag_id == MyHTML_TAG__UNDEF
1527	1	50	if (node_is_document(self))
		50
1528	1		RETVAL = DOCUMENT_NODE;
1529			}
1530			OUTPUT:
1531			RETVAL
1532
1533			# Node::html() - Serialize text/comment node to html
1534			# Node::html(text) - Same as Node::nodeValue(text)
1535			# Element::html(text) - Remove all children nodes and add parsed fragment, return self
1536			SV *
1537			html(HTML5::DOM::Node self, SV *text = NULL)
1538			ALIAS:
1539			innerHTML = 1
1540			outerHTML = 2
1541			CODE:
1542	66	100	if (text) {
1543	3	100	if (ix == 2 && !myhtml_node_parent(self)) // outerHTML
		50
1544	0	0	sub_croak(cv, "This element has no parent node.");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1545
1546	3		text = sv_stringify(text);
1547			STRLEN text_len;
1548	3	50	const char *text_str = SvPV_const(text, text_len);
1549
1550	6	50	if (node_is_element(self) \|\| node_is_document(self)) { // parse fragment and replace all node childrens with it
		50
		50
		50
		0
		0
1551			// parse fragment
1552			mystatus_t status;
1553	3		html5_fragment_parts_t parts = {0};
1554	3	100	myhtml_tree_node_t *context_node = ix == 2 ? myhtml_node_parent(self) : self;
1555	3		myhtml_tag_id_t context_tag_id = context_node->tag_id;
1556
1557			// hack for document node
1558	3	50	if (node_is_document(context_node))
		0
1559	0		context_tag_id = MyHTML_TAG_HTML;
1560
1561	3		html5_dom_tree_t tree_context = (html5_dom_tree_t ) self->tree->context;
1562	3		html5_dom_options_t opts = {0};
1563	3		html5_dom_parse_options(&opts, &tree_context->parser->opts, NULL);
1564
1565			// force set encoding to UTF-8
1566	3		opts.encoding = MyENCODING_DEFAULT;
1567	3		opts.default_encoding = MyENCODING_DEFAULT;
1568
1569	3		myhtml_tree_node_t *fragment = html5_dom_parse_fragment(&opts, self->tree, context_tag_id, myhtml_node_namespace(context_node), text_str, text_len, &parts, &status);
1570	3	50	if (status)
1571	0	0	sub_croak(cv, "myhtml_parse_fragment failed: %d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1572
1573			// remove all child nodes
1574	3		myhtml_tree_node_t *node = myhtml_node_child(self);
1575	6	100	while (node) {
1576	3		myhtml_tree_node_t *next = myhtml_node_next(node);
1577	3		myhtml_tree_node_remove(node);
1578	3		html5_tree_node_delete_recursive(node);
1579	3		node = next;
1580			}
1581
1582			// cleanup references in tree
1583	3	50	if (node_is_root(self)) {
		50
1584	0		self->tree->node_body = parts.node_body;
1585	0		self->tree->node_head = parts.node_head;
1586	3	50	} else if (node_is_document(self)) {
		0
1587	0		self->tree->node_html = parts.node_html;
1588	0		self->tree->node_body = parts.node_body;
1589	0		self->tree->node_head = parts.node_head;
1590			}
1591
1592	3	50	if (fragment != self->tree->node_html) {
1593			// add fragment
1594	3		node = myhtml_node_child(fragment);
1595	6	100	while (node) {
1596	3		myhtml_tree_node_t *next = myhtml_node_next(node);
1597	3		myhtml_tree_node_remove(node);
1598	3	100	if (ix == 2) { // outerHTML
1599	1		myhtml_tree_node_insert_before(self, node);
1600			} else { // innerHTML
1601	2		myhtml_tree_node_add_child(self, node);
1602			}
1603	3		node = next;
1604			}
1605
1606			// remove self if outerHTML
1607	3	100	if (ix == 2)
1608	1		myhtml_tree_node_remove(self);
1609
1610			// free fragment
1611	3		html5_tree_node_delete_recursive(fragment);
1612			} else {
1613			// fragment now is html node, why not?
1614	0		fragment->tag_id = MyHTML_TAG_HTML;
1615	0		myhtml_tree_node_remove(fragment);
1616	0		myhtml_tree_node_add_child(self, fragment);
1617			}
1618			} else { // same as nodeValue, for user friendly API
1619	0		myhtml_node_text_set(self, text_str, text_len, MyENCODING_DEFAULT);
1620			}
1621	3		RETVAL = SvREFCNT_inc(ST(0));
1622			} else {
1623	63		RETVAL = newSVpv_utf8_auto(self->tree, "", 0);
1624	65	50	if (self->tag_id == MyHTML_TAG__UNDEF \|\| ix == 1 \|\| html5_dom_is_fragment(self)) { // innerHTML
		100
		100
		100
1625	2		myhtml_tree_node_t *node = myhtml_node_child(self);
1626	6	100	while (node) {
1627	4		myhtml_serialization_tree_callback(node, sv_serialization_callback, RETVAL);
1628	4		node = myhtml_node_next(node);
1629			}
1630			} else { // outerHTML
1631	61		myhtml_serialization_tree_callback(self, sv_serialization_callback, RETVAL);
1632			}
1633			}
1634			OUTPUT:
1635			RETVAL
1636
1637			# Node::text() - Serialize tree to text
1638			# Node::text(text) - Set node value, return self
1639			# Element::text(text) - Remove all children nodes and add text node, return self
1640			SV *
1641			text(HTML5::DOM::Node self, SV *text = NULL)
1642			ALIAS:
1643			nodeValue = 1
1644			innerText = 2
1645			textContent = 3
1646			data = 4
1647			outerText = 5
1648			CODE:
1649			static const char names[][16] = {
1650			"text", "nodeValue", "innerText", "textContent", "data", "outerText"
1651			};
1652
1653	213		myhtml_tree_t *tree = self->tree;
1654	213	50	if (!node_is_element(self)) {
		100
		100
		50
1655	92	50	if (ix == 2 \|\| ix == 3 \|\| ix == 5) {
		50
		50
1656	0	0	if (text) {
1657	0	0	sub_croak(cv, "%s unsupported in %s", names[ix], get_node_class(self));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1658			} else {
1659	0		RETVAL = &PL_sv_undef;
1660			}
1661	46	50	} else if (text) { // set node value
1662	0		text = sv_stringify(text);
1663			STRLEN text_len;
1664	0	0	const char *text_str = SvPV_const(text, text_len);
1665
1666	0		myhtml_node_text_set(self, text_str, text_len, MyENCODING_DEFAULT);
1667	0		RETVAL = SvREFCNT_inc(ST(0));
1668			} else { // get node value
1669	46		size_t text_len = 0;
1670	46		const char *text = myhtml_node_text(self, &text_len);
1671	46	50	RETVAL = newSVpv_utf8_auto(self->tree, text ? text : "", text_len);
1672			}
1673			} else {
1674	167	100	if (ix == 1 \|\| ix == 4) {
		100
1675	4	50	if (text) {
1676	0	0	sub_croak(cv, "%s unsupported in %s", names[ix], get_node_class(self));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1677			} else {
1678	2		RETVAL = &PL_sv_undef;
1679			}
1680	165	100	} else if (text) { // remove all childrens and add text node
1681	9		text = sv_stringify(text);
1682			STRLEN text_len;
1683	9	100	const char *text_str = SvPV_const(text, text_len);
1684
1685			// remove all children nodes
1686	9		myhtml_tree_node_t *node = myhtml_node_child(self);
1687	18	100	while (node) {
1688	9		myhtml_tree_node_t *next = myhtml_node_next(node);
1689	9		myhtml_tree_node_remove(node);
1690	9		html5_tree_node_delete_recursive(node);
1691	9		node = next;
1692			}
1693
1694			// cleanup references in tree
1695	9	50	if (node_is_root(self)) {
		50
1696	0		self->tree->node_body = NULL;
1697	0		self->tree->node_head = NULL;
1698	9	50	} else if (node_is_document(self)) {
		0
1699	0		self->tree->node_html = NULL;
1700	0		self->tree->node_body = NULL;
1701	0		self->tree->node_head = NULL;
1702			}
1703
1704			// innerText, outerText
1705	11	100	if (ix == 2 \|\| ix == 5) {
		100
1706	2		size_t last_pos = 0;
1707	52	100	for (size_t i = 0; i < text_len; ++i) {
1708	50		bool is_end = (i >= text_len - 1);
1709	50	100	bool is_new_line = (text_str[i] == '\n' \|\| text_str[i] == '\r');
		50
1710	50	100	if (is_end \|\| is_new_line) {
		100
1711	4	100	if (is_end && !is_new_line)
		50
1712	0		++i;
1713
1714			// insert new text node
1715	4	100	if (i - last_pos) {
1716	2		myhtml_tree_node_t *text_node = myhtml_node_create(self->tree, MyHTML_TAG__TEXT, myhtml_node_namespace(self));
1717	2		myhtml_node_text_set(text_node, &text_str[last_pos], i - last_pos, MyENCODING_DEFAULT);
1718	2	100	if (ix == 5) { // outerText
1719	1		myhtml_tree_node_insert_before(self, text_node);
1720			} else { // innerText
1721	1		myhtml_tree_node_add_child(self, text_node);
1722			}
1723			}
1724
1725			// insert new br
1726	4	50	if (is_new_line) {
1727	4		myhtml_tree_node_t *text_node = myhtml_node_create(self->tree, MyHTML_TAG_BR, myhtml_node_namespace(self));
1728	4	50	if (!text_node->token) {
1729	4		text_node->token = myhtml_token_node_create(self->tree->token, self->tree->mcasync_rules_token_id);
1730	4	50	if (!text_node->token) {
1731	0		myhtml_tree_node_delete(text_node);
1732	0	0	sub_croak(cv, "myhtml_token_node_create failed");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1733			}
1734	4		text_node->token->type \|= MyHTML_TOKEN_TYPE_CLOSE_SELF \| MyHTML_TOKEN_TYPE_DONE;
1735			}
1736
1737	4	100	if (ix == 5) { // outerText
1738	2		myhtml_tree_node_insert_before(self, text_node);
1739			} else { // innerText
1740	2		myhtml_tree_node_add_child(self, text_node);
1741			}
1742			}
1743
1744	4	100	if (!is_end) {
1745	2	50	if (text_str[i] == '\r' && text_str[i + 1] == '\n')
		0
1746	0		++i;
1747	2		last_pos = i + 1;
1748			}
1749			}
1750			}
1751			}
1752			// text, textContent
1753			else {
1754	7		myhtml_tree_node_t *text_node = myhtml_node_create(self->tree, MyHTML_TAG__TEXT, myhtml_node_namespace(self));
1755	7		myhtml_node_text_set(text_node, text_str, text_len, MyENCODING_DEFAULT);
1756	7		myhtml_tree_node_add_child(self, text_node);
1757			}
1758
1759	9		RETVAL = SvREFCNT_inc(ST(0));
1760
1761	9	100	if (ix == 5) {
1762			// remove self, if outerText
1763	9		myhtml_tree_node_remove(self);
1764			}
1765			} else { // recursive serialize node to text
1766			// innerText, outerText
1767	158	100	if (ix == 2 \|\| ix == 5) {
		100
1768	2		html5_dom_inner_text_state_t state = {0};
1769	2		state.last_br = true;
1770	2		state.new_line = true;
1771
1772	2		mycore_string_init(self->tree->mchar, self->tree->mchar_node_id, &state.value, 1);
1773
1774	2		myhtml_tree_node_t *next = myhtml_node_child(self);
1775	4	100	while (next) {
1776	2		html5_dom_recursive_node_inner_text(next, &state);
1777	2		next = myhtml_node_next(next);
1778			}
1779	2		html5_dom_rtrim_mystring(&state.value, ' ');
1780
1781	2	50	RETVAL = newSVpv_utf8_auto(self->tree, state.value.length ? state.value.data : "", state.value.length);
1782	2		mycore_string_destroy(&state.value, 0);
1783			}
1784			// text, textContent
1785			else {
1786	154		RETVAL = newSVpv_utf8_auto(self->tree, "", 0);
1787	154		html5_dom_recursive_node_text(self, RETVAL);
1788			}
1789			}
1790			}
1791			OUTPUT:
1792			RETVAL
1793
1794			# Wait for node parsing done (when async mode) - removed
1795			SV *
1796			wait(HTML5::DOM::Node self, bool deep = false)
1797			CODE:
1798	1		RETVAL = SvREFCNT_inc(ST(0));
1799			OUTPUT:
1800			RETVAL
1801
1802			# True if node parsing done (when async mode) - removed
1803			int
1804			parsed(HTML5::DOM::Node self, bool deep = false)
1805			CODE:
1806	1		RETVAL = 1;
1807			OUTPUT:
1808			RETVAL
1809
1810			# Next element
1811			SV *
1812			next(HTML5::DOM::Node self)
1813			ALIAS:
1814			nextElementSibling = 1
1815			CODE:
1816	6		myhtml_tree_node_t *node = myhtml_node_next(self);
1817	16	100	while (node && !node_is_element(node))
		50
		100
		100
		50
1818	10		node = myhtml_node_next(node);
1819	6		RETVAL = node_to_sv(node);
1820			OUTPUT:
1821			RETVAL
1822
1823			# Next node
1824			SV *
1825			nextNode(HTML5::DOM::Node self)
1826			ALIAS:
1827			nextSibling = 1
1828			CODE:
1829	18		RETVAL = node_to_sv(myhtml_node_next(self));
1830			OUTPUT:
1831			RETVAL
1832
1833			# Prev element
1834			SV *
1835			prev(HTML5::DOM::Node self)
1836			ALIAS:
1837			previousElementSibling = 1
1838			CODE:
1839	6		myhtml_tree_node_t *node = myhtml_node_prev(self);
1840	16	100	while (node && !node_is_element(node))
		50
		100
		100
		50
1841	10		node = myhtml_node_prev(node);
1842	6		RETVAL = node_to_sv(node);
1843			OUTPUT:
1844			RETVAL
1845
1846			# Prev node
1847			SV *
1848			prevNode(HTML5::DOM::Node self)
1849			ALIAS:
1850			previousSibling = 1
1851			CODE:
1852	18		RETVAL = node_to_sv(myhtml_node_prev(self));
1853			OUTPUT:
1854			RETVAL
1855
1856			# Parent node
1857			SV *
1858			parent(HTML5::DOM::Node self)
1859			ALIAS:
1860			isConnected = 1
1861			parentNode = 2
1862			parentElement = 3
1863			CODE:
1864	72	100	RETVAL = ix == 1 ? newSViv(myhtml_node_parent(self) ? 1 : 0) : node_to_sv(myhtml_node_parent(self));
1865			OUTPUT:
1866			RETVAL
1867
1868			# Owner document
1869			SV *
1870			document(HTML5::DOM::Node self)
1871			ALIAS:
1872			ownerDocument = 1
1873			CODE:
1874	2		RETVAL = node_to_sv(myhtml_tree_get_document(self->tree));
1875			OUTPUT:
1876			RETVAL
1877
1878			# Remove node from tree
1879			SV *
1880			remove(HTML5::DOM::Node self, HTML5::DOM::Node node = NULL)
1881			ALIAS:
1882			removeChild = 1
1883			CODE:
1884	2	100	if (ix == 1) {
1885	1	50	if (!node)
1886	0	0	sub_croak(cv, "%s is not of type %s", "node", "HTML5::DOM::Node");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1887	1	50	if (node->parent != self)
1888	0	0	sub_croak(cv, "The node to be removed is not a child of this node.");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1889	1		RETVAL = node_to_sv(myhtml_tree_node_remove(node));
1890			} else {
1891	1		RETVAL = node_to_sv(myhtml_tree_node_remove(self));
1892			}
1893			OUTPUT:
1894			RETVAL
1895
1896			# Append child to parent before current node
1897			SV *
1898			before(HTML5::DOM::Node self, HTML5::DOM::Node a, HTML5::DOM::Node b = NULL)
1899			ALIAS:
1900			insertBefore = 1
1901			CODE:
1902			myhtml_tree_node_t reference_node, new_node;
1903
1904	8	100	if (ix == 1) {
1905	4		new_node = a;
1906	4		reference_node = b;
1907
1908	4	50	if (!reference_node)
1909	0	0	sub_croak(cv, "%s is not of type %s", "reference_node", "HTML5::DOM::Node");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1910	4	50	if (reference_node->parent != self)
1911	4	0	sub_croak(cv, "The node before which the new node is to be inserted is not a child of this node.");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1912			} else {
1913	4		new_node = a;
1914	4		reference_node = self;
1915			}
1916
1917	8	50	if (!myhtml_node_parent(reference_node))
1918	0	0	sub_croak(cv, "can't insert before detached node");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1919
1920	8	50	if (reference_node->tree != new_node->tree) {
1921	0		myhtml_tree_node_remove(new_node);
1922	0		new_node = html5_dom_recursive_clone_node(reference_node->tree, new_node, NULL);
1923	0	0	if (!new_node)
1924	0	0	sub_croak(cv, "node copying internal error");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1925			}
1926
1927	10	100	if (html5_dom_is_fragment(new_node)) {
		50
1928	2		myhtml_tree_node_t *fragment_child = myhtml_node_child(new_node);
1929	12	100	while (fragment_child) {
1930	10		myhtml_tree_node_t *next = myhtml_node_next(fragment_child);
1931	10		myhtml_tree_node_remove(fragment_child);
1932	10		myhtml_tree_node_insert_before(reference_node, fragment_child);
1933	10		fragment_child = next;
1934			}
1935			} else {
1936	6		myhtml_tree_node_remove(new_node);
1937	6		myhtml_tree_node_insert_before(reference_node, new_node);
1938			}
1939
1940	8	100	if (ix == 1) {
1941	4		RETVAL = node_to_sv(new_node);
1942			} else {
1943	4		RETVAL = SvREFCNT_inc(ST(0));
1944			}
1945			OUTPUT:
1946			RETVAL
1947
1948			# Append child to parent after current node
1949			SV *
1950			after(HTML5::DOM::Node self, HTML5::DOM::Node a, HTML5::DOM::Node b = NULL)
1951			ALIAS:
1952			insertAfter = 1
1953			CODE:
1954			myhtml_tree_node_t reference_node, new_node;
1955
1956	8	100	if (ix == 1) {
1957	4		new_node = a;
1958	4		reference_node = b;
1959
1960	4	50	if (!reference_node)
1961	0	0	sub_croak(cv, "%s is not of type %s", "reference_node", "HTML5::DOM::Node");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1962	4	50	if (reference_node->parent != self)
1963	4	0	sub_croak(cv, "The node after which the new node is to be inserted is not a child of this node.");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1964			} else {
1965	4		new_node = a;
1966	4		reference_node = self;
1967			}
1968
1969	8	50	if (!myhtml_node_parent(reference_node))
1970	0	0	sub_croak(cv, "can't insert before detached node");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1971
1972	8	50	if (reference_node->tree != new_node->tree) {
1973	0		myhtml_tree_node_remove(new_node);
1974	0		new_node = html5_dom_recursive_clone_node(reference_node->tree, new_node, NULL);
1975	0	0	if (!new_node)
1976	0	0	sub_croak(cv, "node copying internal error");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1977			}
1978
1979	10	100	if (html5_dom_is_fragment(new_node)) {
		50
1980	2		myhtml_tree_node_t *fragment_child = myhtml_node_last_child(new_node);
1981	12	100	while (fragment_child) {
1982	10		myhtml_tree_node_t *next = myhtml_node_prev(fragment_child);
1983	10		myhtml_tree_node_remove(fragment_child);
1984	10		myhtml_tree_node_insert_after(reference_node, fragment_child);
1985	10		fragment_child = next;
1986			}
1987			} else {
1988	6		myhtml_tree_node_remove(new_node);
1989	6		myhtml_tree_node_insert_after(reference_node, new_node);
1990			}
1991
1992	8	100	if (ix == 1) {
1993	4		RETVAL = node_to_sv(new_node);
1994			} else {
1995	4		RETVAL = SvREFCNT_inc(ST(0));
1996			}
1997			OUTPUT:
1998			RETVAL
1999
2000			# Append node child
2001			SV *
2002			append(HTML5::DOM::Node self, HTML5::DOM::Node child)
2003			ALIAS:
2004			appendChild = 1
2005			CODE:
2006	5	50	if (!node_is_element(self))
		50
		50
		50
2007	0	0	sub_croak(cv, "can't append children to non-element node");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
2008
2009	5	50	if (self->tree != child->tree) {
2010	0		myhtml_tree_node_remove(child);
2011	0		child = html5_dom_recursive_clone_node(self->tree, child, NULL);
2012	0	0	if (!child)
2013	0	0	sub_croak(cv, "node copying internal error");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
2014			}
2015
2016	7	100	if (html5_dom_is_fragment(child)) {
		50
2017	2		myhtml_tree_node_t *fragment_child = myhtml_node_child(child);
2018	12	100	while (fragment_child) {
2019	10		myhtml_tree_node_t *next = myhtml_node_next(fragment_child);
2020	10		myhtml_tree_node_remove(fragment_child);
2021	10		myhtml_tree_node_add_child(self, fragment_child);
2022	10		fragment_child = next;
2023			}
2024			} else {
2025	3		myhtml_tree_node_remove(child);
2026	3		myhtml_tree_node_add_child(self, child);
2027			}
2028
2029	5	100	if (ix == 1) {
2030	2		RETVAL = node_to_sv(child);
2031			} else {
2032	3		RETVAL = SvREFCNT_inc(ST(0));
2033			}
2034			OUTPUT:
2035			RETVAL
2036
2037			# Prepend node child
2038			SV *
2039			prepend(HTML5::DOM::Node self, HTML5::DOM::Node child)
2040			ALIAS:
2041			prependChild = 1
2042			CODE:
2043	4	50	if (!node_is_element(self))
		50
		50
		50
2044	0	0	sub_croak(cv, "can't prepend children to non-element node");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
2045
2046	4	50	if (self->tree != child->tree) {
2047	0		myhtml_tree_node_remove(child);
2048	0		child = html5_dom_recursive_clone_node(self->tree, child, NULL);
2049	0	0	if (!child)
2050	0	0	sub_croak(cv, "node copying internal error");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
2051			}
2052
2053	4		myhtml_tree_node_t *first_node = myhtml_node_child(self);
2054	6	100	if (html5_dom_is_fragment(child)) {
		50
2055	2		myhtml_tree_node_t *fragment_child = myhtml_node_child(child);
2056	12	100	while (fragment_child) {
2057	10		myhtml_tree_node_t *next = myhtml_node_next(fragment_child);
2058	10		myhtml_tree_node_remove(fragment_child);
2059	10	50	if (first_node) {
2060	10		myhtml_tree_node_insert_before(first_node, fragment_child);
2061			} else {
2062	0		myhtml_tree_node_add_child(self, fragment_child);
2063			}
2064	10		fragment_child = next;
2065			}
2066			} else {
2067	2		myhtml_tree_node_remove(child);
2068	2	50	if (first_node) {
2069	2		myhtml_tree_node_insert_before(first_node, child);
2070			} else {
2071	0		myhtml_tree_node_add_child(self, child);
2072			}
2073			}
2074
2075	4	100	if (ix == 1) {
2076	2		RETVAL = node_to_sv(child);
2077			} else {
2078	2		RETVAL = SvREFCNT_inc(ST(0));
2079			}
2080			OUTPUT:
2081			RETVAL
2082
2083			# Replace node with child
2084			SV *
2085			replace(HTML5::DOM::Node self, HTML5::DOM::Node a, HTML5::DOM::Node b = NULL)
2086			ALIAS:
2087			replaceChild = 1
2088			CODE:
2089			myhtml_tree_node_t old_node, new_node;
2090
2091	4	100	if (ix == 1) {
2092	2		new_node = a;
2093	2		old_node = b;
2094
2095	2	50	if (!old_node)
2096	0	0	sub_croak(cv, "%s is not of type %s", "old_node", "HTML5::DOM::Node");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
2097	2	50	if (old_node->parent != self)
2098	2	0	sub_croak(cv, "The node to be replaced is not a child of this node.");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
2099			} else {
2100	2		new_node = a;
2101	2		old_node = self;
2102			}
2103
2104	4	50	if (old_node->tree != new_node->tree) {
2105	0		myhtml_tree_node_remove(new_node);
2106	0		new_node = html5_dom_recursive_clone_node(old_node->tree, new_node, NULL);
2107	0	0	if (!new_node)
2108	0	0	sub_croak(cv, "node copying internal error");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
2109			}
2110
2111	6	100	if (html5_dom_is_fragment(new_node)) {
		50
2112	2		myhtml_tree_node_t *fragment_child = myhtml_node_child(new_node);
2113	12	100	while (fragment_child) {
2114	10		myhtml_tree_node_t *next = myhtml_node_next(fragment_child);
2115	10		myhtml_tree_node_remove(fragment_child);
2116	10		myhtml_tree_node_insert_before(old_node, fragment_child);
2117	10		fragment_child = next;
2118			}
2119			} else {
2120	2		myhtml_tree_node_remove(new_node);
2121	2		myhtml_tree_node_insert_before(old_node, new_node);
2122			}
2123
2124	4		myhtml_tree_node_remove(old_node);
2125
2126	4	100	RETVAL = (ix == 1 ? node_to_sv(old_node) : SvREFCNT_inc(ST(0)));
2127			OUTPUT:
2128			RETVAL
2129
2130			# Clone node
2131			SV *
2132			clone(HTML5::DOM::Node self, bool deep = false, HTML5::DOM::Tree new_tree = NULL)
2133			ALIAS:
2134			cloneNode = 1
2135			CODE:
2136	24	50	myhtml_tree_t *tree = new_tree ? new_tree->tree : self->tree;
2137	24	100	if (deep) {
2138	12		RETVAL = node_to_sv(html5_dom_recursive_clone_node(tree, self, NULL));
2139			} else {
2140	12		RETVAL = node_to_sv(html5_dom_copy_foreign_node(tree, self));
2141			}
2142			OUTPUT:
2143			RETVAL
2144
2145			# True if node is void
2146			bool
2147			void(HTML5::DOM::Node self)
2148			CODE:
2149	2		RETVAL = myhtml_node_is_void_element(self);
2150			OUTPUT:
2151			RETVAL
2152
2153			# True if node is self-closed
2154			bool
2155			selfClosed(HTML5::DOM::Node self)
2156			CODE:
2157	2		RETVAL = myhtml_node_is_close_self(self);
2158			OUTPUT:
2159			RETVAL
2160
2161			# Node position in text input
2162			SV *
2163			position(HTML5::DOM::Node self)
2164			CODE:
2165	1		HV *hash = newHV();
2166	1	50	hv_store_ent(hash, sv_2mortal(newSVpv_utf8_auto(self->tree, "raw_begin", 9)), newSViv(self->token ? self->token->raw_begin : 0), 0);
2167	1	50	hv_store_ent(hash, sv_2mortal(newSVpv_utf8_auto(self->tree, "raw_length", 10)), newSViv(self->token ? self->token->raw_length : 0), 0);
2168	1	50	hv_store_ent(hash, sv_2mortal(newSVpv_utf8_auto(self->tree, "element_begin", 13)), newSViv(self->token ? self->token->element_begin : 0), 0);
2169	1	50	hv_store_ent(hash, sv_2mortal(newSVpv_utf8_auto(self->tree, "element_length", 14)), newSViv(self->token ? self->token->element_length : 0), 0);
2170	1		RETVAL = newRV_noinc((SV *) hash);
2171			OUTPUT:
2172			RETVAL
2173
2174			# Some bad idea to get "uniq id"
2175			SV *
2176			hash(HTML5::DOM::Node self)
2177			CODE:
2178	5		RETVAL = newSViv(PTR2IV(self));
2179			OUTPUT:
2180			RETVAL
2181
2182			# Compare node reference
2183			bool
2184			isSameNode(HTML5::DOM::Node self, SV *other_node)
2185			CODE:
2186	221		RETVAL = false;
2187	221	50	if (sv_derived_from(other_node, "HTML5::DOM::Node")) {
2188	221	50	myhtml_tree_node_t node = INT2PTR(myhtml_tree_node_t , SvIV((SV*)SvRV(other_node)));
2189	221	100	if (node == self)
2190	170		RETVAL = true;
2191			}
2192			OUTPUT:
2193			RETVAL
2194
2195			void
2196			DESTROY(HTML5::DOM::Node self)
2197			CODE:
2198	1246		SV sv = (SV ) myhtml_node_get_data(self);
2199
2200			DOM_GC_TRACE("DOM::Node::DESTROY (refcnt=%d)", sv ? SvREFCNT(sv) : -666);
2201
2202	1246	50	if (sv) {
2203	1246		html5_dom_tree_t tree = (html5_dom_tree_t ) self->tree->context;
2204	1246		myhtml_node_set_data(self, NULL);
2205			// detached node, can be deleted
2206	1246	100	if (!myhtml_node_parent(self) && self != myhtml_tree_get_document(self->tree)) {
		100
2207	75	50	if (self == self->tree->node_html) {
2208	0		self->tree->node_html = NULL;
2209	75	50	} else if (self == self->tree->node_body) {
2210	0		self->tree->node_body = NULL;
2211	75	50	} else if (self == self->tree->node_head) {
2212	0		self->tree->node_head = NULL;
2213	75	50	} else if (self == self->tree->node_form) {
2214	0		self->tree->node_form = NULL;
2215	75	50	} else if (self == self->tree->fragment) {
2216	0		self->tree->fragment = NULL;
2217	75	50	} else if (self == self->tree->document) {
2218	0		self->tree->document = NULL;
2219			}
2220			DOM_GC_TRACE("=> DOM::Node::FREE");
2221	75		html5_tree_node_delete_recursive(self);
2222			}
2223	1246		SvREFCNT_dec(tree->sv);
2224			}
2225
2226			#################################################################
2227			# HTML5::DOM::Element (extends Node)
2228			#################################################################
2229			MODULE = HTML5::DOM PACKAGE = HTML5::DOM::Element
2230			# Find by css query
2231			SV *
2232			find(HTML5::DOM::Element self, SV query, SV combinator = NULL)
2233			ALIAS:
2234			at = 1
2235			querySelector = 2
2236			querySelectorAll = 3
2237			CODE:
2238	18		html5_dom_tree_t tree_context = (html5_dom_tree_t ) self->tree->context;
2239	18	100	RETVAL = html5_node_find(cv, tree_context->parser, self, query, combinator, ix == 1 \|\| ix == 2);
		100
2240			OUTPUT:
2241			RETVAL
2242
2243			# findTag(val), getElementsByTagName(val) - get nodes by tag name
2244			# findClass(val), getElementsByClassName(val) - get nodes by class name
2245			# findId(val), getElementById(val) - get node by id
2246			# findAttr(key), getElementByAttribute(key) - get nodes by attribute key
2247			# findAttr(key, val, case, cmp), getElementByAttribute(key, val, case, cmp) - get nodes by attribute value
2248			SV *
2249			findTag(HTML5::DOM::Element self, SV key, SV val = NULL, bool icase = false, SV *cmp = NULL)
2250			ALIAS:
2251			getElementsByTagName = 1
2252			findClass = 2
2253			getElementsByClassName = 3
2254			findId = 4
2255			getElementById = 5
2256			findAttr = 6
2257			getElementByAttribute = 7
2258			CODE:
2259	80		RETVAL = html5_node_simple_find(cv, self, key, val, cmp, icase, ix);
2260			OUTPUT:
2261			RETVAL
2262
2263			# First child element
2264			SV *
2265			first(HTML5::DOM::Element self)
2266			ALIAS:
2267			firstElementChild = 1
2268			CODE:
2269	18		myhtml_tree_node_t *node = myhtml_node_child(self);
2270	34	100	while (node && !node_is_element(node))
		50
		100
		100
		50
2271	16		node = myhtml_node_next(node);
2272	18		RETVAL = node_to_sv(node);
2273			OUTPUT:
2274			RETVAL
2275
2276			# First child node
2277			SV *
2278			firstNode(HTML5::DOM::Element self)
2279			ALIAS:
2280			firstChild = 1
2281			CODE:
2282	176		RETVAL = node_to_sv(myhtml_node_child(self));
2283			OUTPUT:
2284			RETVAL
2285
2286			# Last child element
2287			SV *
2288			last(HTML5::DOM::Element self)
2289			ALIAS:
2290			lastElementChild = 1
2291			CODE:
2292	16		myhtml_tree_node_t *node = myhtml_node_last_child(self);
2293	32	100	while (node && !node_is_element(node))
		50
		100
		100
		50
2294	16		node = myhtml_node_prev(node);
2295	16		RETVAL = node_to_sv(node);
2296			OUTPUT:
2297			RETVAL
2298
2299			# Last child node
2300			SV *
2301			lastNode(HTML5::DOM::Element self)
2302			ALIAS:
2303			lastChild = 1
2304			CODE:
2305	2		RETVAL = node_to_sv(myhtml_node_last_child(self));
2306			OUTPUT:
2307			RETVAL
2308
2309			# return all attributes in a array
2310			SV *
2311			attrArray(HTML5::DOM::Element self)
2312			CODE:
2313	1		AV *array = newAV();
2314
2315	1		myhtml_tree_attr_t *attr = myhtml_node_attribute_first(self);
2316	6	100	while (attr) {
2317	5		HV *hash = newHV();
2318
2319	5		size_t attr_key_len = 0;
2320	5		const char *attr_key = myhtml_attribute_key(attr, &attr_key_len);
2321
2322	5		size_t attr_val_len = 0;
2323	5		const char *attr_val = myhtml_attribute_value(attr, &attr_val_len);
2324
2325	5		size_t ns_len = 0;
2326	5		const char *ns_name = myhtml_namespace_name_by_id(myhtml_attribute_namespace(attr), &ns_len);
2327
2328	5	50	hv_store_ent(hash, sv_2mortal(newSVpv_utf8_auto(self->tree, "name", 4)), newSVpv_utf8_auto(self->tree, attr_key ? attr_key : "", attr_key_len), 0);
2329	5	100	hv_store_ent(hash, sv_2mortal(newSVpv_utf8_auto(self->tree, "value", 5)), newSVpv_utf8_auto(self->tree, attr_val ? attr_val : "", attr_val_len), 0);
2330	5	50	hv_store_ent(hash, sv_2mortal(newSVpv_utf8_auto(self->tree, "namespace", 9)), newSVpv_utf8_auto(self->tree, ns_name ? ns_name : "", ns_len), 0);
2331
2332	5		av_push(array, newRV_noinc((SV *) hash));
2333
2334	5		attr = myhtml_attribute_next(attr);
2335			}
2336
2337	1		RETVAL = newRV_noinc((SV *) array);
2338			OUTPUT:
2339			RETVAL
2340
2341			# attr() - return all attributes in a hash
2342			# attr("key") - return value of attribute "key" (undef is not exists)
2343			# attr("key", "value") - set value for attribute "key" (return this)
2344			# attr({"key" => "value"}) - bulk set value for attribute "key" (return this)
2345			SV *
2346			attr(HTML5::DOM::Element self, SV key = NULL, SV value = NULL)
2347			ALIAS:
2348			setAttribute = 1
2349			getAttribute = 2
2350			CODE:
2351	127		RETVAL = &PL_sv_undef;
2352
2353	127	100	if (ix == 1) { // setAttribute
2354	9	50	if (!key)
2355	0	0	sub_croak(cv, "attribute key required for setAttribute");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
2356
2357	9	50	if (!value)
2358	9	0	sub_croak(cv, "attribute value required for setAttribute");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
2359	118	100	} else if (ix == 2) { // getAttribute
2360	6	50	if (!key)
2361	0	0	sub_croak(cv, "attribute key required for getAttribute");
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
2362
2363	6		key = sv_stringify(key);
2364	6		value = NULL;
2365			}
2366
2367	150	100	if (key && value) { // Set value by key or delete by key
		100
2368	23		key = sv_stringify(key);
2369	23		value = sv_stringify(value);
2370
2371	23		STRLEN key_len = 0;
2372	23	50	const char *key_str = SvPV_const(key, key_len);
2373
2374	23	50	if (key_len) {
2375			// if value is undef - only remove attribute
2376	23	100	if (SvTYPE(value) != SVt_NULL) {
2377	15		STRLEN val_len = 0;
2378	15	50	const char *val_str = SvPV_const(value, val_len);
2379	15		html5_dom_replace_attr_value(self, key_str, key_len, val_str, val_len, MyENCODING_DEFAULT);
2380			} else {
2381	8		myhtml_attribute_remove_by_key(self, key_str, key_len);
2382			}
2383			}
2384
2385			// return self
2386	23		RETVAL = SvREFCNT_inc(ST(0));
2387	104	100	} else if (key && !value) {
		50
2388			// Bulk attr set
2389	206	100	if (SvROK(key) && SvTYPE(SvRV(key)) == SVt_PVHV) {
		50
2390			HE *entry;
2391	1		HV hash = (HV ) SvRV(key);
2392
2393	8	100	while ((entry = hv_iternext(hash)) != NULL) {
2394	7		SV *value = hv_iterval(hash, entry);
2395			I32 key_len;
2396	7		const char *key_name = hv_iterkey(entry, &key_len);
2397	7	50	if (value && key_len) {
		50
2398	7		value = sv_stringify(value);
2399
2400			// if value is undef - only remove attribute
2401	7	100	if (SvTYPE(value) != SVt_NULL) {
2402	3		STRLEN val_len = 0;
2403	3	100	const char *val_str = SvPV_const(value, val_len);
2404	3		html5_dom_replace_attr_value(self, key_name, key_len, val_str, val_len, MyENCODING_DEFAULT);
2405			} else {
2406	7		myhtml_attribute_remove_by_key(self, key_name, key_len);
2407			}
2408			}
2409			}
2410
2411	1		RETVAL = SvREFCNT_inc(ST(0));
2412			}
2413			// Get attribute by key
2414			else {
2415	102		key = sv_stringify(key);
2416
2417	102		STRLEN key_len = 0;
2418	102	50	const char *key_str = SvPV_const(key, key_len);
2419
2420	102	50	if (key_len) {
2421	102		myhtml_tree_attr_t *attr = myhtml_attribute_by_key(self, key_str, key_len);
2422	102	100	if (attr) {
2423	77		size_t attr_val_len = 0;
2424	77		const char *attr_val = myhtml_attribute_value(attr, &attr_val_len);
2425	102	100	RETVAL = newSVpv_utf8_auto(self->tree, attr_val ? attr_val : "", attr_val_len);
2426			}
2427			}
2428			}
2429			} else { // Return all attributes in hash
2430	1		HV *hash = newHV();
2431
2432	1		myhtml_tree_attr_t *attr = myhtml_node_attribute_first(self);
2433	6	100	while (attr) {
2434	5		size_t attr_key_len = 0;
2435	5		const char *attr_key = myhtml_attribute_key(attr, &attr_key_len);
2436
2437	5		size_t attr_val_len = 0;
2438	5		const char *attr_val = myhtml_attribute_value(attr, &attr_val_len);
2439
2440	5	100	hv_store_ent(hash, sv_2mortal(newSVpv_utf8_auto(self->tree, attr_key ? attr_key : "", attr_key_len)), newSVpv_utf8_auto(self->tree, attr_val ? attr_val : "", attr_val_len), 0);
		50
2441
2442	5		attr = myhtml_attribute_next(attr);
2443			}
2444
2445	1		RETVAL = newRV_noinc((SV *) hash);
2446			}
2447			OUTPUT:
2448			RETVAL
2449
2450			# Remove attribute by key
2451			SV *
2452			removeAttr(HTML5::DOM::Element self, SV *key = NULL)
2453			ALIAS:
2454			removeAttribute = 1
2455			CODE:
2456	8		key = sv_stringify(key);
2457
2458	8		STRLEN key_len = 0;
2459	8	50	const char *key_str = SvPV_const(key, key_len);
2460
2461	8	50	if (key_len)
2462	8		myhtml_attribute_remove_by_key(self, key_str, key_len);
2463
2464	8		RETVAL = SvREFCNT_inc(ST(0));
2465			OUTPUT:
2466			RETVAL
2467
2468			# Return collection with children elements
2469			SV *
2470			children(HTML5::DOM::Element self)
2471			CODE:
2472	43		myhtml_tree_node_t *child = myhtml_node_child(self);
2473	43		AV *arr = newAV();
2474
2475	568	100	while (child) {
2476	525	50	if (node_is_element(child))
		100
		100
		50
2477	219		av_push(arr, node_to_sv(child));
2478	525		child = myhtml_node_next(child);
2479			}
2480
2481	43		RETVAL = sv_bless(newRV_noinc((SV *) arr), gv_stashpv("HTML5::DOM::Collection", 0));
2482			OUTPUT:
2483			RETVAL
2484
2485			# Return collection with children nodes
2486			SV *
2487			childrenNode(HTML5::DOM::Element self)
2488			ALIAS:
2489			childNodes = 1
2490			CODE:
2491	21		myhtml_tree_node_t *child = myhtml_node_child(self);
2492	21		AV *arr = newAV();
2493
2494	121	100	while (child) {
2495	100		av_push(arr, node_to_sv(child));
2496	100		child = myhtml_node_next(child);
2497			}
2498
2499	21		RETVAL = sv_bless(newRV_noinc((SV *) arr), gv_stashpv("HTML5::DOM::Collection", 0));
2500			OUTPUT:
2501			RETVAL
2502
2503			# Return default display property for tag
2504			SV *
2505			getDefaultBoxType(HTML5::DOM::Element self)
2506			CODE:
2507	5		const char *ret = NULL;
2508	5		switch (html5_dom_get_ua_display_prop(self)) {
2509			case TAG_UA_STYLE_NONE:
2510	1		ret = "none";
2511	1		break;
2512			case TAG_UA_STYLE_INLINE:
2513	2		ret = "inline";
2514	2		break;
2515			case TAG_UA_STYLE_BLOCK:
2516	1		ret = "block";
2517	1		break;
2518			case TAG_UA_STYLE_INLINE_BLOCK:
2519	0		ret = "inline-block";
2520	0		break;
2521			case TAG_UA_STYLE_LIST_ITEM:
2522	0		ret = "list-item";
2523	0		break;
2524			case TAG_UA_STYLE_TABLE:
2525	1		ret = "table";
2526	1		break;
2527			case TAG_UA_STYLE_TABLE_CAPTION:
2528	0		ret = "table-caption";
2529	0		break;
2530			case TAG_UA_STYLE_TABLE_CELL:
2531	0		ret = "table-cell";
2532	0		break;
2533			case TAG_UA_STYLE_TABLE_COLUMN:
2534	0		ret = "table-column";
2535	0		break;
2536			case TAG_UA_STYLE_TABLE_COLUMN_GROUP:
2537	0		ret = "table-column-group";
2538	0		break;
2539			case TAG_UA_STYLE_TABLE_HEADER_GROUP:
2540	0		ret = "table-header-group";
2541	0		break;
2542			case TAG_UA_STYLE_TABLE_FOOTER_GROUP:
2543	0		ret = "table-footer-group";
2544	0		break;
2545			case TAG_UA_STYLE_TABLE_ROW:
2546	0		ret = "table-row";
2547	0		break;
2548			case TAG_UA_STYLE_TABLE_ROW_GROUP:
2549	0		ret = "table-row-group";
2550	0		break;
2551			case TAG_UA_STYLE_RUBY:
2552	0		ret = "ruby";
2553	0		break;
2554			case TAG_UA_STYLE_RUBY_BASE:
2555	0		ret = "ruby-base";
2556	0		break;
2557			case TAG_UA_STYLE_RUBY_TEXT:
2558	0		ret = "ruby-text";
2559	0		break;
2560			case TAG_UA_STYLE_RUBY_TEXT_CONTAINER:
2561	0		ret = "ruby-text-container";
2562	0		break;
2563			}
2564
2565	5	50	RETVAL = ret ? newSVpv_utf8_auto(self->tree, ret, strlen(ret)) : &PL_sv_undef;
2566			OUTPUT:
2567			RETVAL
2568
2569			#################################################################
2570			# HTML5::DOM::DocType (extends Node)
2571			#################################################################
2572			MODULE = HTML5::DOM PACKAGE = HTML5::DOM::DocType
2573			SV name(HTML5::DOM::DocType self, SV value = NULL)
2574			ALIAS:
2575			publicId = 1
2576			systemId = 2
2577			CODE:
2578			static const char *TYPE_SYSTEM = "SYSTEM";
2579			static const char *TYPE_PUBLIC = "PUBLIC";
2580
2581	171	50	myhtml_tree_attr_t *root_name = self->token ? self->token->attr_first : NULL;
2582	171	100	myhtml_tree_attr_t *restrict_type = root_name ? root_name->next : NULL;
2583	171	100	myhtml_tree_attr_t *public_id = restrict_type ? restrict_type->next : NULL;
2584	171	100	myhtml_tree_attr_t *system_id = public_id ? public_id->next : NULL;
2585
2586	171	100	if (restrict_type && restrict_type->value.length == 6) {
		50
2587	131	100	if (mycore_strcasecmp(restrict_type->value.data, "SYSTEM") == 0) {
2588	38		system_id = public_id;
2589	38		public_id = NULL;
2590			}
2591			}
2592
2593	171	100	if (value) {
2594	15		value = sv_stringify(value);
2595
2596	15	50	myhtml_tree_attr_t *attr_first = self->token ? self->token->attr_first : NULL;
2597	15	50	myhtml_tree_attr_t *attr_last = self->token ? self->token->attr_last : NULL;
2598
2599	15		STRLEN val_len = 0;
2600	15	50	const char *val_str = SvPV_const(value, val_len);
2601
2602			// root element name
2603	15	100	if (ix == 0) {
2604	5		myhtml_attribute_add(self, val_str, val_len, "", 0, MyENCODING_DEFAULT);
2605			} else {
2606	10	100	myhtml_attribute_add(self, root_name && root_name->key.length ? root_name->key.data : "", root_name ? root_name->key.length : 0, "", 0, MyENCODING_DEFAULT);
		100
		50
2607			}
2608
2609	15		const char *restrict_type_str = NULL;
2610
2611	15	100	if ((ix == 2 && val_len) \|\| (system_id && system_id->value.length))
		50
		100
		50
2612	9		restrict_type_str = TYPE_SYSTEM;
2613
2614	15	100	if ((ix == 1 && val_len) \|\| (public_id && public_id->value.length))
		50
		100
		50
2615	9		restrict_type_str = TYPE_PUBLIC;
2616
2617	15	100	if (restrict_type_str) {
2618			// SYSTEM or PUBLIC
2619	13		myhtml_attribute_add(self, "", 0, restrict_type_str, 6, MyENCODING_DEFAULT);
2620
2621	13	100	if (restrict_type_str == TYPE_PUBLIC) {
2622			// publicId
2623	9	100	if (ix == 1) {
2624	5		myhtml_attribute_add(self, "", 0, val_str, val_len, MyENCODING_DEFAULT);
2625			} else {
2626	4	50	myhtml_attribute_add(self, "", 0, public_id && public_id->value.length ? public_id->value.data : "", public_id ? public_id->value.length : 0, MyENCODING_DEFAULT);
		50
		50
2627			}
2628			}
2629
2630			// systemId
2631	13	100	if (ix == 2) {
2632	5		myhtml_attribute_add(self, "", 0, val_str, val_len, MyENCODING_DEFAULT);
2633			} else {
2634	8	100	myhtml_attribute_add(self, "", 0, system_id && system_id->value.length ? system_id->value.data : "", system_id ? system_id->value.length : 0, MyENCODING_DEFAULT);
		100
		50
2635			}
2636			}
2637
2638			// remove old
2639	36	100	while (attr_last && attr_first) {
		50
2640	33		myhtml_tree_attr_t *next = attr_first->next;
2641	33		myhtml_attribute_delete(self->tree, self, attr_first);
2642
2643	33	100	if (attr_first == attr_last)
2644	12		break;
2645
2646	21		attr_first = next;
2647			}
2648
2649	15		RETVAL = SvREFCNT_inc(ST(0));
2650			} else {
2651	156		RETVAL = &PL_sv_undef;
2652
2653	156		switch (ix) {
2654			case 0: /* name */
2655	52	100	RETVAL = newSVpv_utf8_auto(self->tree, root_name && root_name->key.length ? root_name->key.data : "", root_name ? root_name->key.length : 0);
		100
		100
2656	52		break;
2657
2658			case 1: /* publicId */
2659	52	100	RETVAL = newSVpv_utf8_auto(self->tree, public_id && public_id->value.length ? public_id->value.data : "", public_id ? public_id->value.length : 0);
		100
		100
2660	52		break;
2661
2662			case 2: /* systemId */
2663	52	100	RETVAL = newSVpv_utf8_auto(self->tree, system_id && system_id->value.length ? system_id->value.data : "", system_id ? system_id->value.length : 0);
		100
		100
2664	52		break;
2665			}
2666			}
2667			OUTPUT:
2668			RETVAL
2669
2670			#################################################################
2671			# HTML5::DOM::CSS (Parser)
2672			#################################################################
2673			MODULE = HTML5::DOM PACKAGE = HTML5::DOM::CSS
2674			HTML5::DOM::CSS
2675			new(SV CLASS, HV options = NULL)
2676			CODE:
2677			DOM_GC_TRACE("DOM::CSS::new");
2678			mystatus_t status;
2679
2680	21		mycss_t *mycss = mycss_create();
2681	21		status = mycss_init(mycss);
2682	21	50	if (status) {
2683	0		mycss_destroy(mycss, 1);
2684	0	0	sub_croak(cv, "mycss_init failed: %d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
2685			}
2686
2687	21		mycss_entry_t *entry = mycss_entry_create();
2688	21		status = mycss_entry_init(mycss, entry);
2689	21	50	if (status) {
2690	0		mycss_destroy(mycss, 1);
2691	0		mycss_entry_destroy(entry, 1);
2692	0	0	sub_croak(cv, "mycss_entry_init failed: %d (%s)", status, modest_strerror(status));
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
2693			}
2694
2695	21		html5_css_parser_t self = (html5_css_parser_t ) safemalloc(sizeof(html5_css_parser_t));
2696	21		self->mycss = mycss;
2697	21		self->entry = entry;
2698	21		self->encoding = MyENCODING_UTF_8;
2699
2700	21		html5_dom_parse_options(&self->opts, NULL, options);
2701
2702	21		RETVAL = self;
2703			OUTPUT:
2704			RETVAL
2705
2706			# Parse css selector
2707			SV *
2708			parseSelector(HTML5::DOM::CSS self, SV query, HV options = NULL)
2709			CODE:
2710			mystatus_t status;
2711
2712			html5_dom_options_t opts;
2713	21		html5_dom_parse_options(&opts, &self->opts, options);
2714
2715	21		query = sv_stringify(query);
2716
2717			STRLEN query_len;
2718	21	50	const char *query_str = SvPV_const(query, query_len);
2719
2720	21		mycss_selectors_list_t *list = mycss_selectors_parse(mycss_entry_selectors(self->entry), MyENCODING_UTF_8, query_str, query_len, &status);
2721
2722			DOM_GC_TRACE("DOM::CSS::Selector::NEW");
2723	21		html5_css_selector_t selector = (html5_css_selector_t ) safemalloc(sizeof(html5_css_selector_t));
2724	21		selector->parent = SvRV(ST(0));
2725	21		selector->list = list;
2726	21		selector->parser = self;
2727
2728	21	100	if (opts.utf8 == 2) {
2729	19		selector->utf8 = SvUTF8(query) ? 1 : 0;
2730			} else {
2731	2		selector->utf8 = opts.utf8 != 0;
2732			}
2733
2734	21		SvREFCNT_inc(selector->parent);
2735	21		RETVAL = pack_pointer("HTML5::DOM::CSS::Selector", selector);
2736			OUTPUT:
2737			RETVAL
2738
2739			void
2740			DESTROY(HTML5::DOM::CSS self)
2741			CODE:
2742			DOM_GC_TRACE("DOM::CSS::DESTROY (refs=%d)", SvREFCNT(SvRV(ST(0))));
2743	21		mycss_entry_destroy(self->entry, 1);
2744	21		mycss_destroy(self->mycss, 1);
2745	21		safefree(self);
2746
2747
2748			#################################################################
2749			# HTML5::DOM::CSS::Selector
2750			#################################################################
2751			MODULE = HTML5::DOM PACKAGE = HTML5::DOM::CSS::Selector
2752
2753			# Serialize selector to text
2754			SV *
2755			text(HTML5::DOM::CSS::Selector self)
2756			CODE:
2757	8		RETVAL = newSVpv_utf8_auto_css(self, "", 0);
2758	8	50	if (self->list)
2759	8		mycss_selectors_serialization_list(mycss_entry_selectors(self->parser->entry), self->list, sv_serialization_callback, RETVAL);
2760			OUTPUT:
2761			RETVAL
2762
2763			# True, if selector is valid
2764			bool
2765			valid(HTML5::DOM::CSS::Selector self)
2766			CODE:
2767	3	100	RETVAL = self->list ? !(self->list->flags & MyCSS_SELECTORS_FLAGS_SELECTOR_BAD) : 0;
		100
2768			OUTPUT:
2769			RETVAL
2770
2771			# Return AST tree
2772			SV *
2773			ast(HTML5::DOM::CSS::Selector self)
2774			CODE:
2775	1		AV *result = newAV();
2776	1	50	if (self->list)
2777	1		html5_dom_css_serialize_selector(self, self->list, result);
2778	1		RETVAL = newRV_noinc((SV *) result);
2779			OUTPUT:
2780			RETVAL
2781
2782			# Get count of selector entries
2783			int
2784			length(HTML5::DOM::CSS::Selector self)
2785			CODE:
2786	1	50	RETVAL = self->list ? self->list->entries_list_length : 0;
2787			OUTPUT:
2788			RETVAL
2789
2790			# Get selector entry by index
2791			SV *
2792			entry(HTML5::DOM::CSS::Selector self, int index)
2793			CODE:
2794	16	50	if (!self->list \|\| index < 0 \|\| index >= self->list->entries_list_length) {
		100
		100
2795	2		RETVAL = &PL_sv_undef;
2796			} else {
2797			DOM_GC_TRACE("DOM::CSS::Selector::Entry::NEW");
2798	14		html5_css_selector_entry_t entry = (html5_css_selector_entry_t ) safemalloc(sizeof(html5_css_selector_entry_t));
2799	14		entry->parent = SvRV(ST(0));
2800	14		entry->selector = self;
2801	14		entry->list = &self->list->entries_list[index];
2802	14		SvREFCNT_inc(entry->parent);
2803	14		RETVAL = pack_pointer("HTML5::DOM::CSS::Selector::Entry", entry);
2804			}
2805			OUTPUT:
2806			RETVAL
2807
2808			# utf8(flag) - enable or disable utf8 mode
2809			# utf8() - get status of utf8 mode (0 - disabled, 1 - enabled)
2810			SV *
2811			utf8(HTML5::DOM::CSS::Selector self, SV *value = NULL)
2812			CODE:
2813	1	50	if (!value) {
2814	0		RETVAL = newSViv(self->utf8 ? 1 : 0);
2815			} else {
2816	1		value = sv_stringify(value);
2817
2818			STRLEN enc_length;
2819	1	50	const char *enc_str = SvPV_const(value, enc_length);
2820
2821	1	50	if (enc_length > 0) {
2822	1	50	if (isdigit(enc_str[0])) {
2823	1	50	self->utf8 = SvIV(value) != 0;
2824			} else {
2825	0		self->utf8 = 1;
2826			}
2827			}
2828
2829	1		self->utf8 = 0;
2830
2831	1		RETVAL = SvREFCNT_inc(ST(0));
2832			}
2833			OUTPUT:
2834			RETVAL
2835
2836			void
2837			DESTROY(HTML5::DOM::CSS::Selector self)
2838			CODE:
2839			DOM_GC_TRACE("DOM::CSS::Selector::DESTROY (refs=%d)", SvREFCNT(SvRV(ST(0))));
2840	21	100	if (self->list)
2841	20		mycss_selectors_list_destroy(mycss_entry_selectors(self->parser->entry), self->list, true);
2842	21		SvREFCNT_dec(self->parent);
2843	21		safefree(self);
2844
2845
2846			#################################################################
2847			# HTML5::DOM::CSS::Selector::Entry
2848			#################################################################
2849			MODULE = HTML5::DOM PACKAGE = HTML5::DOM::CSS::Selector::Entry
2850
2851			# Serialize selector to text
2852			SV *
2853			text(HTML5::DOM::CSS::Selector::Entry self)
2854			CODE:
2855	2		RETVAL = newSVpv_utf8_auto_css(self->selector, "", 0);
2856	2		mycss_selectors_serialization_chain(mycss_entry_selectors(self->selector->parser->entry), self->list->entry, sv_serialization_callback, RETVAL);
2857			OUTPUT:
2858			RETVAL
2859
2860			# Return AST tree
2861			SV *
2862			ast(HTML5::DOM::CSS::Selector::Entry self)
2863			CODE:
2864	1		AV *result = newAV();
2865	1		html5_dom_css_serialize_entry(self->selector, self->selector->list, self->list->entry, result);
2866	1		RETVAL = newRV_noinc((SV *) result);
2867			OUTPUT:
2868			RETVAL
2869
2870			# Return pseudo-element name
2871			SV *
2872			pseudoElement(HTML5::DOM::CSS::Selector::Entry self)
2873			CODE:
2874	2		mycss_selectors_entry_t *entry = self->list->entry;
2875	2		RETVAL = &PL_sv_undef;
2876	4	100	while (entry) {
2877	3	100	if (entry->type == MyCSS_SELECTORS_TYPE_PSEUDO_ELEMENT) {
2878	1	50	RETVAL = newSVpv_utf8_auto_css(self->selector, entry->key->length ? entry->key->data : "", entry->key->length);
2879	1		break;
2880			}
2881	2		entry = entry->next;
2882			}
2883			OUTPUT:
2884			RETVAL
2885
2886			# True, if selector is valid
2887			bool
2888			valid(HTML5::DOM::CSS::Selector::Entry self)
2889			CODE:
2890	0		RETVAL = !(self->selector->list->flags & MyCSS_SELECTORS_FLAGS_SELECTOR_BAD);
2891			OUTPUT:
2892			RETVAL
2893
2894			# Return selector specificity in hash {a, b, c}
2895			SV *
2896			specificity(HTML5::DOM::CSS::Selector::Entry self)
2897			CODE:
2898	24		HV *hash = newHV();
2899	24		hv_store_ent(hash, sv_2mortal(newSVpv_utf8_auto_css(self->selector, "a", 1)), newSViv(self->list->specificity.a), 0);
2900	24		hv_store_ent(hash, sv_2mortal(newSVpv_utf8_auto_css(self->selector, "b", 1)), newSViv(self->list->specificity.b), 0);
2901	24		hv_store_ent(hash, sv_2mortal(newSVpv_utf8_auto_css(self->selector, "c", 1)), newSViv(self->list->specificity.c), 0);
2902	24		RETVAL = newRV_noinc((SV *) hash);
2903			OUTPUT:
2904			RETVAL
2905
2906			# Return selector specificity in array [a, b, c]
2907			SV *
2908			specificityArray(HTML5::DOM::CSS::Selector::Entry self)
2909			CODE:
2910	8		AV *arr = newAV();
2911	8		av_push(arr, newSViv(self->list->specificity.a));
2912	8		av_push(arr, newSViv(self->list->specificity.b));
2913	8		av_push(arr, newSViv(self->list->specificity.c));
2914	8		RETVAL = newRV_noinc((SV *) arr);
2915			OUTPUT:
2916			RETVAL
2917
2918			void
2919			DESTROY(HTML5::DOM::CSS::Selector::Entry self)
2920			CODE:
2921			DOM_GC_TRACE("DOM::CSS::Selector::Entry::DESTROY (refs=%d)", SvREFCNT(SvRV(ST(0))));
2922	14		SvREFCNT_dec(self->parent);
2923	14		safefree(self);
2924
2925			#################################################################
2926			# HTML5::DOM::Encoding
2927			#################################################################
2928			MODULE = HTML5::DOM PACKAGE = HTML5::DOM::Encoding
2929
2930			SV *
2931			id2name(int id)
2932			CODE:
2933	2		size_t len = 0;
2934	2		const char *name = myencoding_name_by_id(id, &len);
2935	2	100	RETVAL = name ? newSVpv(name, len) : &PL_sv_undef;
2936			OUTPUT:
2937			RETVAL
2938
2939			SV *
2940			name2id(SV *text)
2941			CODE:
2942	2		text = sv_stringify(text);
2943
2944			STRLEN text_len;
2945	2	50	const char *text_str = SvPV_const(text, text_len);
2946
2947	2		myencoding_t encoding = MyENCODING_NOT_DETERMINED;
2948	2		myencoding_by_name(text_str, text_len, &encoding);
2949	2	100	RETVAL = encoding != MyENCODING_NOT_DETERMINED ? newSViv(encoding) : &PL_sv_undef;
2950			OUTPUT:
2951			RETVAL
2952
2953			int
2954			detect(SV *text, long max_len = 0)
2955			ALIAS:
2956			detectByPrescanStream = 1
2957			detectCyrillic = 2
2958			detectUkrainian = 21
2959			detectRussian = 22
2960			detectUnicode = 3
2961			detectBom = 4
2962			detectByCharset = 5
2963			CODE:
2964	8		text = sv_stringify(text);
2965
2966			STRLEN text_len;
2967	8	50	const char *text_str = SvPV_const(text, text_len);
2968
2969	8	50	if (max_len > 0 && max_len < text_len)
		0
2970	0		text_len = max_len;
2971
2972			myencoding_t encoding;
2973
2974	8		switch (ix) {
2975			case 0:
2976	2	50	if (!myencoding_detect(text_str, text_len, &encoding))
2977	0		encoding = MyENCODING_NOT_DETERMINED;
2978	2		break;
2979			case 1:
2980	1		encoding = myencoding_prescan_stream_to_determine_encoding(text_str, text_len);
2981	1		break;
2982			case 2:
2983			case 21:
2984			case 22:
2985	3	50	if (!myencoding_detect_russian(text_str, text_len, &encoding))
2986	0		encoding = MyENCODING_NOT_DETERMINED;
2987	3		break;
2988			case 3:
2989	1	50	if (!myencoding_detect_unicode(text_str, text_len, &encoding))
2990	0		encoding = MyENCODING_NOT_DETERMINED;
2991	1		break;
2992			case 4:
2993	0	0	if (!myencoding_detect_bom(text_str, text_len, &encoding))
2994	0		encoding = MyENCODING_NOT_DETERMINED;
2995	0		break;
2996			case 5:
2997	1	50	if (!myencoding_extracting_character_encoding_from_charset(text_str, text_len, &encoding))
2998	0		encoding = MyENCODING_NOT_DETERMINED;
2999	1		break;
3000			}
3001
3002	8		RETVAL = encoding;
3003			OUTPUT:
3004			RETVAL
3005
3006			void
3007			detectBomAndCut(SV *text, long max_len = 0)
3008			CODE:
3009	1		text = sv_stringify(text);
3010
3011			STRLEN text_len;
3012	1	50	const char *text_str = SvPV_const(text, text_len);
3013
3014	1	50	if (max_len > 0 && max_len < text_len)
		0
3015	0		text_len = max_len;
3016
3017			myencoding_t encoding;
3018
3019	1	50	if (!myencoding_detect_and_cut_bom(text_str, text_len, &encoding, &text_str, &text_len))
3020	0		encoding = MyENCODING_NOT_DETERMINED;
3021
3022	1		ST(0) = newSViv(encoding);
3023	1		ST(1) = newSVpv(text_str, text_len);
3024
3025	1	50	if (SvUTF8(text))
3026	0		SvUTF8_on(ST(0));
3027
3028	1		sv_2mortal(ST(0));
3029	1		sv_2mortal(ST(1));
3030
3031	1		XSRETURN(2);
3032
3033			void
3034			detectAuto(SV text, long max_len = 0, HV options = NULL)
3035			CODE:
3036	5		text = sv_stringify(text);
3037
3038			STRLEN text_len;
3039	5	50	const char *text_str = SvPV_const(text, text_len);
3040
3041	5	50	if (max_len > 0 && max_len < text_len)
		0
3042	0		text_len = max_len;
3043
3044	5		html5_dom_options_t opts = {0};
3045	5		html5_dom_parse_options(&opts, NULL, options);
3046
3047	5		opts.encoding = MyENCODING_AUTO;
3048	5		opts.default_encoding = MyENCODING_NOT_DETERMINED;
3049	5		opts.encoding_prescan_limit = text_len;
3050
3051	5		myencoding_t encoding = html5_dom_auto_encoding(&opts, &text_str, &text_len);
3052
3053	5		ST(0) = newSViv(encoding);
3054	5		ST(1) = newSVpv(text_str, text_len);
3055
3056	5	50	if (SvUTF8(text))
3057	0		SvUTF8_on(ST(0));
3058
3059	5		sv_2mortal(ST(0));
3060	5		sv_2mortal(ST(1));
3061
3062	5		XSRETURN(2);