static gboolean gtk_mate_exporter_scope_has_inner (GtkMateExporter* self, GtkMateScope* scope) {
gboolean _tmp0_;
gboolean _tmp1_;
g_return_val_if_fail (self != NULL, FALSE);
g_return_val_if_fail (scope != NULL, FALSE);
_tmp0_ = FALSE;
_tmp1_ = FALSE;
if (GTK_MATE_IS_DOUBLE_PATTERN (scope->pattern)) {
_tmp1_ = GTK_MATE_DOUBLE_PATTERN (scope->pattern)->content_name != NULL;
} else {
_tmp1_ = FALSE;
}
if (_tmp1_) {
_tmp0_ = _vala_strcmp0 (GTK_MATE_DOUBLE_PATTERN (scope->pattern)->content_name, "") != 0;
} else {
_tmp0_ = FALSE;
}
return _tmp0_;
}
static void gtk_mate_double_pattern_finalize (GObject* obj) {
GtkMateDoublePattern * self;
self = GTK_MATE_DOUBLE_PATTERN (obj);
self->content_name = (g_free (self->content_name), NULL);
(self->begin == NULL) ? NULL : (self->begin = (g_object_unref (self->begin), NULL));
(self->end == NULL) ? NULL : (self->end = (g_object_unref (self->end), NULL));
self->end_string = (g_free (self->end_string), NULL);
self->begin_string = (g_free (self->begin_string), NULL);
(self->begin_captures == NULL) ? NULL : (self->begin_captures = (g_object_unref (self->begin_captures), NULL));
(self->end_captures == NULL) ? NULL : (self->end_captures = (g_object_unref (self->end_captures), NULL));
(self->both_captures == NULL) ? NULL : (self->both_captures = (g_object_unref (self->both_captures), NULL));
(self->patterns == NULL) ? NULL : (self->patterns = (g_object_unref (self->patterns), NULL));
G_OBJECT_CLASS (gtk_mate_double_pattern_parent_class)->finalize (obj);
}
/* Loads the properties of the grammar that are required
for parsing. Loads patterns into memory, and sets
up possible patterns.*/
void gtk_mate_grammar_init_for_use (GtkMateGrammar* self) {
PListNode* fsm;
PListNode* ftm;
GeeArrayList* _tmp2;
GeeArrayList* _tmp3;
PListNode* ps;
GtkMatePattern* pattern;
GeeHashMap* _tmp5;
PListDict* pd;
PListDict* pd1;
PListNode* pa1;
g_return_if_fail (self != NULL);
if (self->loaded) {
return;
}
self->loaded = TRUE;
/*stdout.printf("initializing grammar for use: %s\n", name);*/
fsm = plist_dict_get (self->priv->_plist, "foldingStartMarker");
if (fsm != NULL) {
OnigRx* _tmp0;
_tmp0 = NULL;
self->folding_start_marker = (_tmp0 = onig_rx_make1 (PLIST_STRING (fsm)->str), (self->folding_start_marker == NULL) ? NULL : (self->folding_start_marker = (g_object_unref (self->folding_start_marker), NULL)), _tmp0);
}
ftm = plist_dict_get (self->priv->_plist, "foldingStopMarker");
if (ftm != NULL) {
OnigRx* _tmp1;
_tmp1 = NULL;
self->folding_stop_marker = (_tmp1 = onig_rx_make1 (PLIST_STRING (ftm)->str), (self->folding_stop_marker == NULL) ? NULL : (self->folding_stop_marker = (g_object_unref (self->folding_stop_marker), NULL)), _tmp1);
}
_tmp2 = NULL;
self->all_patterns = (_tmp2 = gee_array_list_new (GTK_MATE_TYPE_PATTERN, (GBoxedCopyFunc) g_object_ref, g_object_unref, g_direct_equal), (self->all_patterns == NULL) ? NULL : (self->all_patterns = (g_object_unref (self->all_patterns), NULL)), _tmp2);
/* stdout.printf("getting patterns\n");*/
_tmp3 = NULL;
self->patterns = (_tmp3 = gee_array_list_new (GTK_MATE_TYPE_PATTERN, (GBoxedCopyFunc) g_object_ref, g_object_unref, g_direct_equal), (self->patterns == NULL) ? NULL : (self->patterns = (g_object_unref (self->patterns), NULL)), _tmp3);
ps = plist_dict_get (self->priv->_plist, "patterns");
pattern = NULL;
if (ps != NULL) {
{
GeeIterator* _p_it;
_p_it = gee_iterable_iterator ((GeeIterable*) PLIST_ARRAY (ps)->array);
while (gee_iterator_next (_p_it)) {
PListNode* p;
GtkMatePattern* _tmp4;
p = (PListNode*) gee_iterator_get (_p_it);
_tmp4 = NULL;
pattern = (_tmp4 = gtk_mate_pattern_create_from_plist (self->all_patterns, PLIST_DICT (p)), (pattern == NULL) ? NULL : (pattern = (g_object_unref (pattern), NULL)), _tmp4);
gtk_mate_pattern_set_grammar (pattern, self);
if (pattern != NULL) {
gee_collection_add ((GeeCollection*) self->patterns, pattern);
}
(p == NULL) ? NULL : (p = (g_object_unref (p), NULL));
}
(_p_it == NULL) ? NULL : (_p_it = (g_object_unref (_p_it), NULL));
}
}
/* stdout.printf("getting repository\n");*/
_tmp5 = NULL;
self->repository = (_tmp5 = gee_hash_map_new (G_TYPE_STRING, (GBoxedCopyFunc) g_strdup, g_free, GEE_TYPE_ARRAY_LIST, (GBoxedCopyFunc) g_object_ref, g_object_unref, g_str_hash, g_str_equal, g_direct_equal), (self->repository == NULL) ? NULL : (self->repository = (g_object_unref (self->repository), NULL)), _tmp5);
pd = PLIST_DICT (plist_dict_get (self->priv->_plist, "repository"));
pd1 = NULL;
pa1 = NULL;
if (pd != NULL) {
{
GeeSet* _tmp6;
GeeIterator* _tmp7;
GeeIterator* _key_it;
_tmp6 = NULL;
_tmp7 = NULL;
_key_it = (_tmp7 = gee_iterable_iterator ((GeeIterable*) (_tmp6 = gee_map_get_keys ((GeeMap*) pd->map))), (_tmp6 == NULL) ? NULL : (_tmp6 = (g_object_unref (_tmp6), NULL)), _tmp7);
while (gee_iterator_next (_key_it)) {
char* key;
GeeArrayList* repo_array;
PListDict* _tmp8;
gboolean _tmp9;
PListNode* _tmp10;
gboolean _tmp11;
key = (char*) gee_iterator_get (_key_it);
/* stdout.printf("convert repo name: %s\n", key);*/
repo_array = gee_array_list_new (GTK_MATE_TYPE_PATTERN, (GBoxedCopyFunc) g_object_ref, g_object_unref, g_direct_equal);
_tmp8 = NULL;
pd1 = (_tmp8 = PLIST_DICT (plist_dict_get (pd, key)), (pd1 == NULL) ? NULL : (pd1 = (g_object_unref (pd1), NULL)), _tmp8);
_tmp9 = FALSE;
_tmp10 = NULL;
if ((_tmp11 = (_tmp10 = plist_dict_get (pd1, "begin")) != NULL, (_tmp10 == NULL) ? NULL : (_tmp10 = (g_object_unref (_tmp10), NULL)), _tmp11)) {
_tmp9 = TRUE;
} else {
PListNode* _tmp12;
_tmp12 = NULL;
_tmp9 = (_tmp12 = plist_dict_get (pd1, "match")) != NULL;
(_tmp12 == NULL) ? NULL : (_tmp12 = (g_object_unref (_tmp12), NULL));
}
/* repository name can go straight to a pattern*/
if (_tmp9) {
GtkMatePattern* _tmp13;
_tmp13 = NULL;
pattern = (_tmp13 = gtk_mate_pattern_create_from_plist (self->all_patterns, PLIST_DICT (pd1)), (pattern == NULL) ? NULL : (pattern = (g_object_unref (pattern), NULL)), _tmp13);
gtk_mate_pattern_set_grammar (pattern, self);
if (pattern != NULL) {
gee_collection_add ((GeeCollection*) repo_array, pattern);
}
} else {
PListNode* _tmp14;
_tmp14 = NULL;
if ((pa1 = (_tmp14 = plist_dict_get (pd1, "patterns"), (pa1 == NULL) ? NULL : (pa1 = (g_object_unref (pa1), NULL)), _tmp14)) != NULL) {
{
GeeIterator* _ps1_it;
_ps1_it = gee_iterable_iterator ((GeeIterable*) PLIST_ARRAY (pa1)->array);
while (gee_iterator_next (_ps1_it)) {
PListNode* ps1;
GtkMatePattern* _tmp15;
ps1 = (PListNode*) gee_iterator_get (_ps1_it);
_tmp15 = NULL;
pattern = (_tmp15 = gtk_mate_pattern_create_from_plist (self->all_patterns, PLIST_DICT (ps1)), (pattern == NULL) ? NULL : (pattern = (g_object_unref (pattern), NULL)), _tmp15);
gtk_mate_pattern_set_grammar (pattern, self);
if (pattern != NULL) {
gee_collection_add ((GeeCollection*) repo_array, pattern);
}
(ps1 == NULL) ? NULL : (ps1 = (g_object_unref (ps1), NULL));
}
(_ps1_it == NULL) ? NULL : (_ps1_it = (g_object_unref (_ps1_it), NULL));
}
}
}
gee_map_set ((GeeMap*) self->repository, key, repo_array);
key = (g_free (key), NULL);
(repo_array == NULL) ? NULL : (repo_array = (g_object_unref (repo_array), NULL));
}
(_key_it == NULL) ? NULL : (_key_it = (g_object_unref (_key_it), NULL));
}
}
/* stdout.printf("all_patterns: %d\n", all_patterns.size);*/
{
GeeIterator* _p_it;
/* stdout.printf("all_patterns: %d\n", all_patterns.size);*/
_p_it = gee_iterable_iterator ((GeeIterable*) self->all_patterns);
/* stdout.printf("all_patterns: %d\n", all_patterns.size);*/
while (gee_iterator_next (_p_it)) {
GtkMatePattern* p;
/* stdout.printf("all_patterns: %d\n", all_patterns.size);*/
p = (GtkMatePattern*) gee_iterator_get (_p_it);
if (GTK_MATE_IS_DOUBLE_PATTERN (p)) {
gtk_mate_pattern_replace_include_patterns (GTK_MATE_DOUBLE_PATTERN (p)->patterns, self);
}
(p == NULL) ? NULL : (p = (g_object_unref (p), NULL));
}
(_p_it == NULL) ? NULL : (_p_it = (g_object_unref (_p_it), NULL));
}
gtk_mate_pattern_replace_include_patterns (self->patterns, self);
(fsm == NULL) ? NULL : (fsm = (g_object_unref (fsm), NULL));
(ftm == NULL) ? NULL : (ftm = (g_object_unref (ftm), NULL));
(ps == NULL) ? NULL : (ps = (g_object_unref (ps), NULL));
(pattern == NULL) ? NULL : (pattern = (g_object_unref (pattern), NULL));
(pd == NULL) ? NULL : (pd = (g_object_unref (pd), NULL));
(pd1 == NULL) ? NULL : (pd1 = (g_object_unref (pd1), NULL));
(pa1 == NULL) ? NULL : (pa1 = (g_object_unref (pa1), NULL));
}
static char* gtk_mate_exporter_css_names (GtkMateExporter* self, GtkMateScope* scope, gboolean inner) {
char* this_name;
gboolean _tmp0_;
gboolean _tmp1_;
g_return_val_if_fail (self != NULL, NULL);
g_return_val_if_fail (scope != NULL, NULL);
this_name = NULL;
_tmp0_ = FALSE;
_tmp1_ = FALSE;
if (GTK_MATE_IS_DOUBLE_PATTERN (scope->pattern)) {
_tmp1_ = GTK_MATE_DOUBLE_PATTERN (scope->pattern)->content_name != NULL;
} else {
_tmp1_ = FALSE;
}
if (_tmp1_) {
_tmp0_ = inner;
} else {
_tmp0_ = FALSE;
}
if (_tmp0_) {
char* _tmp3_;
const char* _tmp2_;
_tmp3_ = NULL;
_tmp2_ = NULL;
this_name = (_tmp3_ = (_tmp2_ = GTK_MATE_DOUBLE_PATTERN (scope->pattern)->content_name, (_tmp2_ == NULL) ? NULL : g_strdup (_tmp2_)), this_name = (g_free (this_name), NULL), _tmp3_);
} else {
char* _tmp5_;
const char* _tmp4_;
_tmp5_ = NULL;
_tmp4_ = NULL;
this_name = (_tmp5_ = (_tmp4_ = gtk_mate_scope_get_name (scope), (_tmp4_ == NULL) ? NULL : g_strdup (_tmp4_)), this_name = (g_free (this_name), NULL), _tmp5_);
}
if (this_name != NULL) {
char** _tmp7_;
gint bits_size;
gint bits_length1;
char** _tmp6_;
char** bits;
const char* _tmp8_;
char* current;
GString* _result_;
char* _tmp12_;
const char* _tmp11_;
_tmp7_ = NULL;
_tmp6_ = NULL;
bits = (_tmp7_ = _tmp6_ = g_strsplit (this_name, ".", 0), bits_length1 = _vala_array_length (_tmp6_), bits_size = bits_length1, _tmp7_);
/* bits == ["meta", "class", "ruby"]*/
_tmp8_ = NULL;
current = (_tmp8_ = bits[0], (_tmp8_ == NULL) ? NULL : g_strdup (_tmp8_));
_result_ = g_string_new ("");
{
gint i;
i = 1;
for (; i < bits_length1; i++) {
char* _tmp10_;
char* _tmp9_;
g_string_append (_result_, current);
_tmp10_ = NULL;
_tmp9_ = NULL;
current = (_tmp10_ = g_strconcat (_tmp9_ = g_strconcat (current, "_", NULL), bits[i], NULL), current = (g_free (current), NULL), _tmp10_);
_tmp9_ = (g_free (_tmp9_), NULL);
g_string_append (_result_, " ");
}
}
g_string_append (_result_, current);
_tmp12_ = NULL;
_tmp11_ = NULL;
this_name = (_tmp12_ = (_tmp11_ = _result_->str, (_tmp11_ == NULL) ? NULL : g_strdup (_tmp11_)), this_name = (g_free (this_name), NULL), _tmp12_);
bits = (_vala_array_free (bits, bits_length1, (GDestroyNotify) g_free), NULL);
current = (g_free (current), NULL);
(_result_ == NULL) ? NULL : (_result_ = (g_string_free (_result_, TRUE), NULL));
}
return this_name;
}