/* GTK - The GIMP Toolkit * Copyright (C) 2011 Benjamin Otte * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library. If not, see . */ #include "config.h" #include "gtkcssselectorprivate.h" #include #include #include "gtkcssprovider.h" #include "gtkstylecontextprivate.h" #if defined(_MSC_VER) && _MSC_VER >= 1500 # include #endif typedef struct _GtkCssSelectorClass GtkCssSelectorClass; typedef gboolean (* GtkCssSelectorForeachFunc) (const GtkCssSelector *selector, const GtkCssMatcher *matcher, gpointer data); struct _GtkCssSelectorClass { const char *name; void (* print) (const GtkCssSelector *selector, GString *string); /* NULL or an iterator that calls func with each submatcher of @matcher. * Potentially no submatcher exists. * If any @invocation of @func returns %TRUE, the function will immediately * return %TRUE itself. If @func never returns %TRUE (or isn't called at all), * %FALSE will be returned. */ gboolean (* foreach_matcher) (const GtkCssSelector *selector, const GtkCssMatcher *matcher, GtkCssSelectorForeachFunc func, gpointer data); gboolean (* match_one) (const GtkCssSelector *selector, const GtkCssMatcher *matcher); GtkCssChange (* get_change) (const GtkCssSelector *selector, GtkCssChange previous_change); void (* add_specificity) (const GtkCssSelector *selector, guint *ids, guint *classes, guint *elements); guint (* hash_one) (const GtkCssSelector *selector); int (* compare_one) (const GtkCssSelector *a, const GtkCssSelector *b); guint is_simple :1; }; typedef enum { POSITION_FORWARD, POSITION_BACKWARD, POSITION_ONLY, POSITION_SORTED } PositionType; #define POSITION_TYPE_BITS 4 #define POSITION_NUMBER_BITS ((sizeof (gpointer) * 8 - POSITION_TYPE_BITS) / 2) union _GtkCssSelector { const GtkCssSelectorClass *class; /* type of check this selector does */ struct { const GtkCssSelectorClass *class; const char *name; /* interned */ } id; struct { const GtkCssSelectorClass *class; const char *name; /* interned */ GtkRegionFlags flags; } region; struct { const GtkCssSelectorClass *class; GQuark style_class; } style_class; struct { const GtkCssSelectorClass *class; const char *name; /* interned */ } name; struct { const GtkCssSelectorClass *class; GtkStateFlags state; } state; struct { const GtkCssSelectorClass *class; PositionType type :POSITION_TYPE_BITS; gssize a :POSITION_NUMBER_BITS; gssize b :POSITION_NUMBER_BITS; } position; }; #define GTK_CSS_SELECTOR_TREE_EMPTY_OFFSET G_MAXINT32 struct _GtkCssSelectorTree { GtkCssSelector selector; gint32 parent_offset; gint32 previous_offset; gint32 sibling_offset; gint32 matches_offset; /* pointers that we return as matches if selector matches */ }; static gboolean gtk_css_selector_equal (const GtkCssSelector *a, const GtkCssSelector *b) { return a->class == b->class && a->class->compare_one (a, b) == 0; } static guint gtk_css_selector_hash_one (const GtkCssSelector *selector) { return GPOINTER_TO_UINT (selector->class) ^ selector->class->hash_one (selector); } static gpointer * gtk_css_selector_tree_get_matches (const GtkCssSelectorTree *tree) { if (tree->matches_offset == GTK_CSS_SELECTOR_TREE_EMPTY_OFFSET) return NULL; return (gpointer *) ((guint8 *)tree + tree->matches_offset); } static void g_ptr_array_insert_sorted (GPtrArray *array, gpointer data) { gint i; for (i = 0; i < array->len; i++) { if (data == array->pdata[i]) return; if (data < array->pdata[i]) break; } g_ptr_array_insert (array, i, data); } static void gtk_css_selector_tree_found_match (const GtkCssSelectorTree *tree, GPtrArray **array) { int i; gpointer *matches; matches = gtk_css_selector_tree_get_matches (tree); if (matches) { if (!*array) *array = g_ptr_array_sized_new (16); for (i = 0; matches[i] != NULL; i++) g_ptr_array_insert_sorted (*array, matches[i]); } } static gboolean gtk_css_selector_match (const GtkCssSelector *selector, const GtkCssMatcher *matcher) { return selector->class->match_one (selector, matcher); } static gboolean gtk_css_selector_foreach (const GtkCssSelector *selector, const GtkCssMatcher *matcher, GtkCssSelectorForeachFunc func, gpointer data) { return selector->class->foreach_matcher (selector, matcher, func, data); } static int gtk_css_selector_compare_one (const GtkCssSelector *a, const GtkCssSelector *b) { if (a->class != b->class) return strcmp (a->class->name, b->class->name); else return a->class->compare_one (a, b); } static const GtkCssSelector * gtk_css_selector_previous (const GtkCssSelector *selector) { selector = selector + 1; return selector->class ? selector : NULL; } static const GtkCssSelectorTree * gtk_css_selector_tree_at_offset (const GtkCssSelectorTree *tree, gint32 offset) { if (offset == GTK_CSS_SELECTOR_TREE_EMPTY_OFFSET) return NULL; return (GtkCssSelectorTree *) ((guint8 *)tree + offset); } static const GtkCssSelectorTree * gtk_css_selector_tree_get_parent (const GtkCssSelectorTree *tree) { return gtk_css_selector_tree_at_offset (tree, tree->parent_offset); } static const GtkCssSelectorTree * gtk_css_selector_tree_get_previous (const GtkCssSelectorTree *tree) { return gtk_css_selector_tree_at_offset (tree, tree->previous_offset); } static const GtkCssSelectorTree * gtk_css_selector_tree_get_sibling (const GtkCssSelectorTree *tree) { return gtk_css_selector_tree_at_offset (tree, tree->sibling_offset); } /* DEFAULTS */ static void gtk_css_selector_default_add_specificity (const GtkCssSelector *selector, guint *ids, guint *classes, guint *elements) { /* no specificity changes */ } static gboolean gtk_css_selector_default_foreach_matcher (const GtkCssSelector *selector, const GtkCssMatcher *matcher, GtkCssSelectorForeachFunc func, gpointer data) { return func (selector, matcher, data); } static gboolean gtk_css_selector_default_match_one (const GtkCssSelector *selector, const GtkCssMatcher *matcher) { return TRUE; } static guint gtk_css_selector_default_hash_one (const GtkCssSelector *selector) { return 0; } static int gtk_css_selector_default_compare_one (const GtkCssSelector *a, const GtkCssSelector *b) { return 0; } /* DESCENDANT */ static void gtk_css_selector_descendant_print (const GtkCssSelector *selector, GString *string) { g_string_append_c (string, ' '); } static gboolean gtk_css_selector_descendant_foreach_matcher (const GtkCssSelector *selector, const GtkCssMatcher *matcher, GtkCssSelectorForeachFunc func, gpointer data) { GtkCssMatcher ancestor; while (_gtk_css_matcher_get_parent (&ancestor, matcher)) { matcher = &ancestor; if (func (selector, &ancestor, data)) return TRUE; /* any matchers are dangerous here, as we may loop forever, but we can terminate now as all possible matches have already been added */ if (_gtk_css_matcher_matches_any (matcher)) break; } return FALSE; } static GtkCssChange gtk_css_selector_descendant_get_change (const GtkCssSelector *selector, GtkCssChange previous_change) { return _gtk_css_change_for_child (previous_change); } static const GtkCssSelectorClass GTK_CSS_SELECTOR_DESCENDANT = { "descendant", gtk_css_selector_descendant_print, gtk_css_selector_descendant_foreach_matcher, gtk_css_selector_default_match_one, gtk_css_selector_descendant_get_change, gtk_css_selector_default_add_specificity, gtk_css_selector_default_hash_one, gtk_css_selector_default_compare_one, FALSE }; /* CHILD */ static void gtk_css_selector_child_print (const GtkCssSelector *selector, GString *string) { g_string_append (string, " > "); } static gboolean gtk_css_selector_child_foreach_matcher (const GtkCssSelector *selector, const GtkCssMatcher *matcher, GtkCssSelectorForeachFunc func, gpointer data) { GtkCssMatcher parent; if (!_gtk_css_matcher_get_parent (&parent, matcher)) return FALSE; return func (selector, &parent, data); } static GtkCssChange gtk_css_selector_child_get_change (const GtkCssSelector *selector, GtkCssChange previous_change) { return _gtk_css_change_for_child (previous_change); } static const GtkCssSelectorClass GTK_CSS_SELECTOR_CHILD = { "child", gtk_css_selector_child_print, gtk_css_selector_child_foreach_matcher, gtk_css_selector_default_match_one, gtk_css_selector_child_get_change, gtk_css_selector_default_add_specificity, gtk_css_selector_default_hash_one, gtk_css_selector_default_compare_one, FALSE }; /* SIBLING */ static void gtk_css_selector_sibling_print (const GtkCssSelector *selector, GString *string) { g_string_append (string, " ~ "); } static gboolean gtk_css_selector_sibling_foreach_matcher (const GtkCssSelector *selector, const GtkCssMatcher *matcher, GtkCssSelectorForeachFunc func, gpointer data) { GtkCssMatcher previous; while (_gtk_css_matcher_get_previous (&previous, matcher)) { matcher = &previous; if (func (selector, matcher, data)) return TRUE; /* any matchers are dangerous here, as we may loop forever, but we can terminate now as all possible matches have already been added */ if (_gtk_css_matcher_matches_any (matcher)) break; } return FALSE; } static GtkCssChange gtk_css_selector_sibling_get_change (const GtkCssSelector *selector, GtkCssChange previous_change) { return _gtk_css_change_for_sibling (previous_change); } static const GtkCssSelectorClass GTK_CSS_SELECTOR_SIBLING = { "sibling", gtk_css_selector_sibling_print, gtk_css_selector_sibling_foreach_matcher, gtk_css_selector_default_match_one, gtk_css_selector_sibling_get_change, gtk_css_selector_default_add_specificity, gtk_css_selector_default_hash_one, gtk_css_selector_default_compare_one, FALSE }; /* ADJACENT */ static void gtk_css_selector_adjacent_print (const GtkCssSelector *selector, GString *string) { g_string_append (string, " + "); } static gboolean gtk_css_selector_adjacent_foreach_matcher (const GtkCssSelector *selector, const GtkCssMatcher *matcher, GtkCssSelectorForeachFunc func, gpointer data) { GtkCssMatcher previous; if (!_gtk_css_matcher_get_previous (&previous, matcher)) return FALSE; return func (selector, &previous, data); } static GtkCssChange gtk_css_selector_adjacent_get_change (const GtkCssSelector *selector, GtkCssChange previous_change) { return _gtk_css_change_for_sibling (previous_change); } static const GtkCssSelectorClass GTK_CSS_SELECTOR_ADJACENT = { "adjacent", gtk_css_selector_adjacent_print, gtk_css_selector_adjacent_foreach_matcher, gtk_css_selector_default_match_one, gtk_css_selector_adjacent_get_change, gtk_css_selector_default_add_specificity, gtk_css_selector_default_hash_one, gtk_css_selector_default_compare_one, FALSE }; /* SIMPLE SELECTOR DEFINE */ #define DEFINE_SIMPLE_SELECTOR(n, \ c, \ print_func, \ match_func, \ hash_func, \ comp_func, \ increase_id_specificity, \ increase_class_specificity, \ increase_element_specificity) \ static void \ gtk_css_selector_ ## n ## _print (const GtkCssSelector *selector, \ GString *string) \ { \ print_func (selector, string); \ } \ \ static void \ gtk_css_selector_not_ ## n ## _print (const GtkCssSelector *selector, \ GString *string) \ { \ g_string_append (string, ":not("); \ print_func (selector, string); \ g_string_append (string, ")"); \ } \ \ static gboolean \ gtk_css_selector_not_ ## n ## _match_one (const GtkCssSelector *selector, \ const GtkCssMatcher *matcher) \ { \ return !match_func (selector, matcher); \ } \ \ static GtkCssChange \ gtk_css_selector_ ## n ## _get_change (const GtkCssSelector *selector, GtkCssChange previous_change) \ { \ return previous_change | GTK_CSS_CHANGE_ ## c; \ } \ \ static void \ gtk_css_selector_ ## n ## _add_specificity (const GtkCssSelector *selector, \ guint *ids, \ guint *classes, \ guint *elements) \ { \ if (increase_id_specificity) \ { \ (*ids)++; \ } \ if (increase_class_specificity) \ { \ (*classes)++; \ } \ if (increase_element_specificity) \ { \ (*elements)++; \ } \ } \ \ static const GtkCssSelectorClass GTK_CSS_SELECTOR_ ## c = { \ G_STRINGIFY(n), \ gtk_css_selector_ ## n ## _print, \ gtk_css_selector_default_foreach_matcher, \ match_func, \ gtk_css_selector_ ## n ## _get_change, \ gtk_css_selector_ ## n ## _add_specificity, \ hash_func, \ comp_func, \ TRUE \ };\ \ static const GtkCssSelectorClass GTK_CSS_SELECTOR_NOT_ ## c = { \ "not_" G_STRINGIFY(n), \ gtk_css_selector_not_ ## n ## _print, \ gtk_css_selector_default_foreach_matcher, \ gtk_css_selector_not_ ## n ## _match_one, \ gtk_css_selector_ ## n ## _get_change, \ gtk_css_selector_ ## n ## _add_specificity, \ hash_func, \ comp_func, \ TRUE \ }; /* ANY */ static void print_any (const GtkCssSelector *selector, GString *string) { g_string_append_c (string, '*'); } static gboolean match_any (const GtkCssSelector *selector, const GtkCssMatcher *matcher) { return TRUE; } #undef GTK_CSS_CHANGE_ANY #define GTK_CSS_CHANGE_ANY 0 DEFINE_SIMPLE_SELECTOR(any, ANY, print_any, match_any, gtk_css_selector_default_hash_one, gtk_css_selector_default_compare_one, FALSE, FALSE, FALSE) #undef GTK_CSS_CHANGE_ANY /* NAME */ static void print_name (const GtkCssSelector *selector, GString *string) { g_string_append (string, selector->name.name); } static gboolean match_name (const GtkCssSelector *selector, const GtkCssMatcher *matcher) { return _gtk_css_matcher_has_name (matcher, selector->name.name); } static guint hash_name (const GtkCssSelector *a) { return g_str_hash (a->name.name); } static int comp_name (const GtkCssSelector *a, const GtkCssSelector *b) { return strcmp (a->name.name, b->name.name); } DEFINE_SIMPLE_SELECTOR(name, NAME, print_name, match_name, hash_name, comp_name, FALSE, FALSE, TRUE) /* CLASS */ static void print_class (const GtkCssSelector *selector, GString *string) { g_string_append_c (string, '.'); g_string_append (string, g_quark_to_string (selector->style_class.style_class)); } static gboolean match_class (const GtkCssSelector *selector, const GtkCssMatcher *matcher) { return _gtk_css_matcher_has_class (matcher, selector->style_class.style_class); } static guint hash_class (const GtkCssSelector *a) { return a->style_class.style_class; } static int comp_class (const GtkCssSelector *a, const GtkCssSelector *b) { if (a->style_class.style_class < b->style_class.style_class) return -1; if (a->style_class.style_class > b->style_class.style_class) return 1; else return 0; } DEFINE_SIMPLE_SELECTOR(class, CLASS, print_class, match_class, hash_class, comp_class, FALSE, TRUE, FALSE) /* ID */ static void print_id (const GtkCssSelector *selector, GString *string) { g_string_append_c (string, '#'); g_string_append (string, selector->id.name); } static gboolean match_id (const GtkCssSelector *selector, const GtkCssMatcher *matcher) { return _gtk_css_matcher_has_id (matcher, selector->id.name); } static guint hash_id (const GtkCssSelector *a) { return GPOINTER_TO_UINT (a->id.name); } static int comp_id (const GtkCssSelector *a, const GtkCssSelector *b) { if (a->id.name < b->id.name) return -1; else if (a->id.name > b->id.name) return 1; else return 0; } DEFINE_SIMPLE_SELECTOR(id, ID, print_id, match_id, hash_id, comp_id, TRUE, FALSE, FALSE) const gchar * gtk_css_pseudoclass_name (GtkStateFlags state) { static const char * state_names[] = { "active", "hover", "selected", "disabled", "indeterminate", "focus", "backdrop", "dir(ltr)", "dir(rtl)", "link", "visited", "checked", "drop(active)" }; guint i; for (i = 0; i < G_N_ELEMENTS (state_names); i++) { if (state == (1 << i)) return state_names[i]; } return NULL; } /* PSEUDOCLASS FOR STATE */ static void print_pseudoclass_state (const GtkCssSelector *selector, GString *string) { g_string_append_c (string, ':'); g_string_append (string, gtk_css_pseudoclass_name (selector->state.state)); } static gboolean match_pseudoclass_state (const GtkCssSelector *selector, const GtkCssMatcher *matcher) { return (_gtk_css_matcher_get_state (matcher) & selector->state.state) == selector->state.state; } static guint hash_pseudoclass_state (const GtkCssSelector *selector) { return selector->state.state; } static int comp_pseudoclass_state (const GtkCssSelector *a, const GtkCssSelector *b) { return a->state.state - b->state.state; } #define GTK_CSS_CHANGE_PSEUDOCLASS_STATE GTK_CSS_CHANGE_STATE DEFINE_SIMPLE_SELECTOR(pseudoclass_state, PSEUDOCLASS_STATE, print_pseudoclass_state, match_pseudoclass_state, hash_pseudoclass_state, comp_pseudoclass_state, FALSE, TRUE, FALSE) #undef GTK_CSS_CHANGE_PSEUDOCLASS_STATE /* PSEUDOCLASS FOR POSITION */ static void print_pseudoclass_position (const GtkCssSelector *selector, GString *string) { switch (selector->position.type) { case POSITION_FORWARD: if (selector->position.a == 0) { if (selector->position.b == 1) g_string_append (string, ":first-child"); else g_string_append_printf (string, ":nth-child(%d)", selector->position.b); } else if (selector->position.a == 2 && selector->position.b == 0) g_string_append (string, ":nth-child(even)"); else if (selector->position.a == 2 && selector->position.b == 1) g_string_append (string, ":nth-child(odd)"); else { g_string_append (string, ":nth-child("); if (selector->position.a == 1) g_string_append (string, "n"); else if (selector->position.a == -1) g_string_append (string, "-n"); else g_string_append_printf (string, "%dn", selector->position.a); if (selector->position.b > 0) g_string_append_printf (string, "+%d)", selector->position.b); else if (selector->position.b < 0) g_string_append_printf (string, "%d)", selector->position.b); else g_string_append (string, ")"); } break; case POSITION_BACKWARD: if (selector->position.a == 0) { if (selector->position.b == 1) g_string_append (string, ":last-child"); else g_string_append_printf (string, ":nth-last-child(%d)", selector->position.b); } else if (selector->position.a == 2 && selector->position.b == 0) g_string_append (string, ":nth-last-child(even)"); else if (selector->position.a == 2 && selector->position.b == 1) g_string_append (string, ":nth-last-child(odd)"); else { g_string_append (string, ":nth-last-child("); if (selector->position.a == 1) g_string_append (string, "n"); else if (selector->position.a == -1) g_string_append (string, "-n"); else g_string_append_printf (string, "%dn", selector->position.a); if (selector->position.b > 0) g_string_append_printf (string, "+%d)", selector->position.b); else if (selector->position.b < 0) g_string_append_printf (string, "%d)", selector->position.b); else g_string_append (string, ")"); } break; case POSITION_ONLY: g_string_append (string, ":only-child"); break; case POSITION_SORTED: g_string_append (string, ":sorted"); break; default: g_assert_not_reached (); break; } } static gboolean match_pseudoclass_position (const GtkCssSelector *selector, const GtkCssMatcher *matcher) { switch (selector->position.type) { case POSITION_FORWARD: if (!_gtk_css_matcher_has_position (matcher, TRUE, selector->position.a, selector->position.b)) return FALSE; break; case POSITION_BACKWARD: if (!_gtk_css_matcher_has_position (matcher, FALSE, selector->position.a, selector->position.b)) return FALSE; break; case POSITION_ONLY: if (!_gtk_css_matcher_has_position (matcher, TRUE, 0, 1) || !_gtk_css_matcher_has_position (matcher, FALSE, 0, 1)) return FALSE; break; case POSITION_SORTED: return FALSE; default: g_assert_not_reached (); return FALSE; } return TRUE; } static guint hash_pseudoclass_position (const GtkCssSelector *a) { return (guint)(((((gulong)a->position.type) << POSITION_NUMBER_BITS) | a->position.a) << POSITION_NUMBER_BITS) | a->position.b; } static int comp_pseudoclass_position (const GtkCssSelector *a, const GtkCssSelector *b) { int diff; diff = a->position.type - b->position.type; if (diff) return diff; diff = a->position.a - b->position.a; if (diff) return diff; return a->position.b - b->position.b; } static GtkCssChange change_pseudoclass_position (const GtkCssSelector *selector) { switch (selector->position.type) { case POSITION_FORWARD: if (selector->position.a == 0 && selector->position.b == 1) return GTK_CSS_CHANGE_FIRST_CHILD; else return GTK_CSS_CHANGE_NTH_CHILD; case POSITION_BACKWARD: if (selector->position.a == 0 && selector->position.b == 1) return GTK_CSS_CHANGE_LAST_CHILD; else return GTK_CSS_CHANGE_NTH_LAST_CHILD; case POSITION_ONLY: return GTK_CSS_CHANGE_FIRST_CHILD | GTK_CSS_CHANGE_LAST_CHILD; default: g_assert_not_reached (); case POSITION_SORTED: return 0; } } #define GTK_CSS_CHANGE_PSEUDOCLASS_POSITION change_pseudoclass_position(selector) DEFINE_SIMPLE_SELECTOR(pseudoclass_position, PSEUDOCLASS_POSITION, print_pseudoclass_position, match_pseudoclass_position, hash_pseudoclass_position, comp_pseudoclass_position, FALSE, TRUE, FALSE) #undef GTK_CSS_CHANGE_PSEUDOCLASS_POSITION /* API */ static guint gtk_css_selector_size (const GtkCssSelector *selector) { guint size = 0; while (selector) { selector = gtk_css_selector_previous (selector); size++; } return size; } static GtkCssSelector * gtk_css_selector_new (const GtkCssSelectorClass *class, GtkCssSelector *selector) { guint size; size = gtk_css_selector_size (selector); selector = g_realloc (selector, sizeof (GtkCssSelector) * (size + 1) + sizeof (gpointer)); if (size == 0) selector[1].class = NULL; else memmove (selector + 1, selector, sizeof (GtkCssSelector) * size + sizeof (gpointer)); memset (selector, 0, sizeof (GtkCssSelector)); selector->class = class; return selector; } static GtkCssSelector * parse_selector_class (GtkCssParser *parser, GtkCssSelector *selector, gboolean negate) { char *name; name = _gtk_css_parser_try_name (parser, FALSE); if (name == NULL) { _gtk_css_parser_error (parser, "Expected a valid name for class"); if (selector) _gtk_css_selector_free (selector); return NULL; } selector = gtk_css_selector_new (negate ? >K_CSS_SELECTOR_NOT_CLASS : >K_CSS_SELECTOR_CLASS, selector); selector->style_class.style_class = g_quark_from_string (name); g_free (name); return selector; } static GtkCssSelector * parse_selector_id (GtkCssParser *parser, GtkCssSelector *selector, gboolean negate) { char *name; name = _gtk_css_parser_try_name (parser, FALSE); if (name == NULL) { _gtk_css_parser_error (parser, "Expected a valid name for id"); if (selector) _gtk_css_selector_free (selector); return NULL; } selector = gtk_css_selector_new (negate ? >K_CSS_SELECTOR_NOT_ID : >K_CSS_SELECTOR_ID, selector); selector->id.name = g_intern_string (name); g_free (name); return selector; } static GtkCssSelector * parse_selector_pseudo_class_nth_child (GtkCssParser *parser, GtkCssSelector *selector, PositionType type, gboolean negate) { int a, b; if (!_gtk_css_parser_try (parser, "(", TRUE)) { _gtk_css_parser_error (parser, "Missing opening bracket for pseudo-class"); if (selector) _gtk_css_selector_free (selector); return NULL; } if (_gtk_css_parser_try (parser, "even", TRUE)) { a = 2; b = 0; } else if (_gtk_css_parser_try (parser, "odd", TRUE)) { a = 2; b = 1; } else if (type == POSITION_FORWARD && _gtk_css_parser_try (parser, "first", TRUE)) { a = 0; b = 1; } else if (type == POSITION_FORWARD && _gtk_css_parser_try (parser, "last", TRUE)) { a = 0; b = 1; type = POSITION_BACKWARD; } else { int multiplier; if (_gtk_css_parser_try (parser, "+", TRUE)) multiplier = 1; else if (_gtk_css_parser_try (parser, "-", TRUE)) multiplier = -1; else multiplier = 1; if (_gtk_css_parser_try_int (parser, &a)) { if (a < 0) { _gtk_css_parser_error (parser, "Expected an integer"); if (selector) _gtk_css_selector_free (selector); return NULL; } a *= multiplier; } else if (_gtk_css_parser_has_prefix (parser, "n")) { a = multiplier; } else { _gtk_css_parser_error (parser, "Expected an integer"); if (selector) _gtk_css_selector_free (selector); return NULL; } if (_gtk_css_parser_try (parser, "n", TRUE)) { if (_gtk_css_parser_try (parser, "+", TRUE)) multiplier = 1; else if (_gtk_css_parser_try (parser, "-", TRUE)) multiplier = -1; else multiplier = 1; if (_gtk_css_parser_try_int (parser, &b)) { if (b < 0) { _gtk_css_parser_error (parser, "Expected an integer"); if (selector) _gtk_css_selector_free (selector); return NULL; } } else b = 0; b *= multiplier; } else { b = a; a = 0; } } if (!_gtk_css_parser_try (parser, ")", FALSE)) { _gtk_css_parser_error (parser, "Missing closing bracket for pseudo-class"); if (selector) _gtk_css_selector_free (selector); return NULL; } selector = gtk_css_selector_new (negate ? >K_CSS_SELECTOR_NOT_PSEUDOCLASS_POSITION : >K_CSS_SELECTOR_PSEUDOCLASS_POSITION, selector); selector->position.type = type; selector->position.a = a; selector->position.b = b; return selector; } static GtkCssSelector * parse_selector_pseudo_class (GtkCssParser *parser, GtkCssSelector *selector, gboolean negate) { static const struct { const char *name; gboolean deprecated; GtkStateFlags state_flag; PositionType position_type; int position_a; int position_b; } pseudo_classes[] = { { "first-child", 0, 0, POSITION_FORWARD, 0, 1 }, { "last-child", 0, 0, POSITION_BACKWARD, 0, 1 }, { "only-child", 0, 0, POSITION_ONLY, 0, 0 }, { "sorted", 1, 0, POSITION_SORTED, 0, 0 }, { "active", 0, GTK_STATE_FLAG_ACTIVE, }, { "prelight", 1, GTK_STATE_FLAG_PRELIGHT, }, { "hover", 0, GTK_STATE_FLAG_PRELIGHT, }, { "selected", 0, GTK_STATE_FLAG_SELECTED, }, { "insensitive", 1, GTK_STATE_FLAG_INSENSITIVE, }, { "disabled", 0, GTK_STATE_FLAG_INSENSITIVE, }, { "inconsistent", 1, GTK_STATE_FLAG_INCONSISTENT, }, { "indeterminate", 0, GTK_STATE_FLAG_INCONSISTENT, }, { "focused", 1, GTK_STATE_FLAG_FOCUSED, }, { "focus", 0, GTK_STATE_FLAG_FOCUSED, }, { "backdrop", 0, GTK_STATE_FLAG_BACKDROP, }, { "dir(ltr)", 0, GTK_STATE_FLAG_DIR_LTR, }, { "dir(rtl)", 0, GTK_STATE_FLAG_DIR_RTL, }, { "link", 0, GTK_STATE_FLAG_LINK, }, { "visited", 0, GTK_STATE_FLAG_VISITED, }, { "checked", 0, GTK_STATE_FLAG_CHECKED, }, { "drop(active)", 0, GTK_STATE_FLAG_DROP_ACTIVE, } }; guint i; if (_gtk_css_parser_try (parser, "nth-child", FALSE)) return parse_selector_pseudo_class_nth_child (parser, selector, POSITION_FORWARD, negate); else if (_gtk_css_parser_try (parser, "nth-last-child", FALSE)) return parse_selector_pseudo_class_nth_child (parser, selector, POSITION_BACKWARD, negate); for (i = 0; i < G_N_ELEMENTS (pseudo_classes); i++) { if (_gtk_css_parser_try (parser, pseudo_classes[i].name, FALSE)) { if (pseudo_classes[i].state_flag) { selector = gtk_css_selector_new (negate ? >K_CSS_SELECTOR_NOT_PSEUDOCLASS_STATE : >K_CSS_SELECTOR_PSEUDOCLASS_STATE, selector); selector->state.state = pseudo_classes[i].state_flag; if (pseudo_classes[i].deprecated) { if (i + 1 < G_N_ELEMENTS (pseudo_classes) && pseudo_classes[i + 1].state_flag == pseudo_classes[i].state_flag) _gtk_css_parser_error_full (parser, GTK_CSS_PROVIDER_ERROR_DEPRECATED, "The :%s pseudo-class is deprecated. Use :%s instead.", pseudo_classes[i].name, pseudo_classes[i + 1].name); else _gtk_css_parser_error_full (parser, GTK_CSS_PROVIDER_ERROR_DEPRECATED, "The :%s pseudo-class is deprecated.", pseudo_classes[i].name); } } else { selector = gtk_css_selector_new (negate ? >K_CSS_SELECTOR_NOT_PSEUDOCLASS_POSITION : >K_CSS_SELECTOR_PSEUDOCLASS_POSITION, selector); selector->position.type = pseudo_classes[i].position_type; selector->position.a = pseudo_classes[i].position_a; selector->position.b = pseudo_classes[i].position_b; } return selector; } } _gtk_css_parser_error (parser, "Invalid name of pseudo-class"); if (selector) _gtk_css_selector_free (selector); return NULL; } static GtkCssSelector * parse_selector_negation (GtkCssParser *parser, GtkCssSelector *selector) { char *name; name = _gtk_css_parser_try_ident (parser, FALSE); if (name) { selector = gtk_css_selector_new (>K_CSS_SELECTOR_NOT_NAME, selector); selector->name.name = g_intern_string (name); g_free (name); } else if (_gtk_css_parser_try (parser, "*", FALSE)) selector = gtk_css_selector_new (>K_CSS_SELECTOR_NOT_ANY, selector); else if (_gtk_css_parser_try (parser, "#", FALSE)) selector = parse_selector_id (parser, selector, TRUE); else if (_gtk_css_parser_try (parser, ".", FALSE)) selector = parse_selector_class (parser, selector, TRUE); else if (_gtk_css_parser_try (parser, ":", FALSE)) selector = parse_selector_pseudo_class (parser, selector, TRUE); else { _gtk_css_parser_error (parser, "Not a valid selector for :not()"); if (selector) _gtk_css_selector_free (selector); return NULL; } _gtk_css_parser_skip_whitespace (parser); if (!_gtk_css_parser_try (parser, ")", FALSE)) { _gtk_css_parser_error (parser, "Missing closing bracket for :not()"); if (selector) _gtk_css_selector_free (selector); return NULL; } return selector; } static GtkCssSelector * parse_simple_selector (GtkCssParser *parser, GtkCssSelector *selector) { gboolean parsed_something = FALSE; char *name; name = _gtk_css_parser_try_ident (parser, FALSE); if (name) { selector = gtk_css_selector_new (>K_CSS_SELECTOR_NAME, selector); selector->name.name = g_intern_string (name); g_free (name); parsed_something = TRUE; } else if (_gtk_css_parser_try (parser, "*", FALSE)) { selector = gtk_css_selector_new (>K_CSS_SELECTOR_ANY, selector); parsed_something = TRUE; } do { if (_gtk_css_parser_try (parser, "#", FALSE)) selector = parse_selector_id (parser, selector, FALSE); else if (_gtk_css_parser_try (parser, ".", FALSE)) selector = parse_selector_class (parser, selector, FALSE); else if (_gtk_css_parser_try (parser, ":not(", TRUE)) selector = parse_selector_negation (parser, selector); else if (_gtk_css_parser_try (parser, ":", FALSE)) selector = parse_selector_pseudo_class (parser, selector, FALSE); else if (!parsed_something) { _gtk_css_parser_error (parser, "Expected a valid selector"); if (selector) _gtk_css_selector_free (selector); return NULL; } else break; parsed_something = TRUE; } while (selector && !_gtk_css_parser_is_eof (parser)); _gtk_css_parser_skip_whitespace (parser); return selector; } GtkCssSelector * _gtk_css_selector_parse (GtkCssParser *parser) { GtkCssSelector *selector = NULL; while ((selector = parse_simple_selector (parser, selector)) && !_gtk_css_parser_is_eof (parser) && !_gtk_css_parser_begins_with (parser, ',') && !_gtk_css_parser_begins_with (parser, '{')) { if (_gtk_css_parser_try (parser, "+", TRUE)) selector = gtk_css_selector_new (>K_CSS_SELECTOR_ADJACENT, selector); else if (_gtk_css_parser_try (parser, "~", TRUE)) selector = gtk_css_selector_new (>K_CSS_SELECTOR_SIBLING, selector); else if (_gtk_css_parser_try (parser, ">", TRUE)) selector = gtk_css_selector_new (>K_CSS_SELECTOR_CHILD, selector); else selector = gtk_css_selector_new (>K_CSS_SELECTOR_DESCENDANT, selector); } return selector; } void _gtk_css_selector_free (GtkCssSelector *selector) { g_return_if_fail (selector != NULL); g_free (selector); } void _gtk_css_selector_print (const GtkCssSelector *selector, GString * str) { const GtkCssSelector *previous; g_return_if_fail (selector != NULL); previous = gtk_css_selector_previous (selector); if (previous) _gtk_css_selector_print (previous, str); selector->class->print (selector, str); } char * _gtk_css_selector_to_string (const GtkCssSelector *selector) { GString *string; g_return_val_if_fail (selector != NULL, NULL); string = g_string_new (NULL); _gtk_css_selector_print (selector, string); return g_string_free (string, FALSE); } static gboolean gtk_css_selector_foreach_match (const GtkCssSelector *selector, const GtkCssMatcher *matcher, gpointer unused) { selector = gtk_css_selector_previous (selector); if (selector == NULL) return TRUE; if (!gtk_css_selector_match (selector, matcher)) return FALSE; return gtk_css_selector_foreach (selector, matcher, gtk_css_selector_foreach_match, NULL); } /** * _gtk_css_selector_matches: * @selector: the selector * @path: the path to check * @state: The state to match * * Checks if the @selector matches the given @path. If @length is * smaller than the number of elements in @path, it is assumed that * only the first @length element of @path are valid and the rest * does not exist. This is useful for doing parent matches for the * 'inherit' keyword. * * Returns: %TRUE if the selector matches @path **/ gboolean _gtk_css_selector_matches (const GtkCssSelector *selector, const GtkCssMatcher *matcher) { g_return_val_if_fail (selector != NULL, FALSE); g_return_val_if_fail (matcher != NULL, FALSE); if (!gtk_css_selector_match (selector, matcher)) return FALSE; return gtk_css_selector_foreach (selector, matcher, gtk_css_selector_foreach_match, NULL); } /* Computes specificity according to CSS 2.1. * The arguments must be initialized to 0 */ static void _gtk_css_selector_get_specificity (const GtkCssSelector *selector, guint *ids, guint *classes, guint *elements) { for (; selector; selector = gtk_css_selector_previous (selector)) { selector->class->add_specificity (selector, ids, classes, elements); } } int _gtk_css_selector_compare (const GtkCssSelector *a, const GtkCssSelector *b) { guint a_ids = 0, a_classes = 0, a_elements = 0; guint b_ids = 0, b_classes = 0, b_elements = 0; int compare; _gtk_css_selector_get_specificity (a, &a_ids, &a_classes, &a_elements); _gtk_css_selector_get_specificity (b, &b_ids, &b_classes, &b_elements); compare = a_ids - b_ids; if (compare) return compare; compare = a_classes - b_classes; if (compare) return compare; return a_elements - b_elements; } GtkCssChange _gtk_css_selector_get_change (const GtkCssSelector *selector) { if (selector == NULL) return 0; return selector->class->get_change (selector, _gtk_css_selector_get_change (gtk_css_selector_previous (selector))); } /******************** SelectorTree handling *****************/ static GHashTable * gtk_css_selectors_count_initial_init (void) { return g_hash_table_new ((GHashFunc)gtk_css_selector_hash_one, (GEqualFunc)gtk_css_selector_equal); } static void gtk_css_selectors_count_initial (const GtkCssSelector *selector, GHashTable *hash_one) { if (!selector->class->is_simple) { guint count = GPOINTER_TO_INT (g_hash_table_lookup (hash_one, selector)); g_hash_table_replace (hash_one, (gpointer)selector, GUINT_TO_POINTER (count + 1)); return; } for (; selector && selector->class->is_simple; selector = gtk_css_selector_previous (selector)) { guint count = GPOINTER_TO_INT (g_hash_table_lookup (hash_one, selector)); g_hash_table_replace (hash_one, (gpointer)selector, GUINT_TO_POINTER (count + 1)); } } static gboolean gtk_css_selectors_has_initial_selector (const GtkCssSelector *selector, const GtkCssSelector *initial) { if (!selector->class->is_simple) return gtk_css_selector_equal (selector, initial); for (; selector && selector->class->is_simple; selector = gtk_css_selector_previous (selector)) { if (gtk_css_selector_equal (selector, initial)) return TRUE; } return FALSE; } static GtkCssSelector * gtk_css_selectors_skip_initial_selector (GtkCssSelector *selector, const GtkCssSelector *initial) { GtkCssSelector *found; GtkCssSelector tmp; /* If the initial simple selector is not first, move it there so we can skip it without losing any other selectors */ if (!gtk_css_selector_equal (selector, initial)) { for (found = selector; found && found->class->is_simple; found = (GtkCssSelector *)gtk_css_selector_previous (found)) { if (gtk_css_selector_equal (found, initial)) break; } g_assert (found != NULL && found->class->is_simple); tmp = *found; *found = *selector; *selector = tmp; } return (GtkCssSelector *)gtk_css_selector_previous (selector); } static gboolean gtk_css_selector_tree_match_foreach (const GtkCssSelector *selector, const GtkCssMatcher *matcher, gpointer res) { const GtkCssSelectorTree *tree = (const GtkCssSelectorTree *) selector; const GtkCssSelectorTree *prev; if (!gtk_css_selector_match (selector, matcher)) return FALSE; gtk_css_selector_tree_found_match (tree, res); for (prev = gtk_css_selector_tree_get_previous (tree); prev != NULL; prev = gtk_css_selector_tree_get_sibling (prev)) gtk_css_selector_foreach (&prev->selector, matcher, gtk_css_selector_tree_match_foreach, res); return FALSE; } GPtrArray * _gtk_css_selector_tree_match_all (const GtkCssSelectorTree *tree, const GtkCssMatcher *matcher) { GPtrArray *array = NULL; for (; tree != NULL; tree = gtk_css_selector_tree_get_sibling (tree)) gtk_css_selector_foreach (&tree->selector, matcher, gtk_css_selector_tree_match_foreach, &array); return array; } /* When checking for changes via the tree we need to know if a rule further down the tree matched, because if so we need to add "our bit" to the Change. For instance in a a match like *.class:active we'll get a tree that first checks :active, if that matches we continue down to the tree, and if we get a match we add CHANGE_CLASS. However, the end of the tree where we have a match is an ANY which doesn't actually modify the change, so we don't know if we have a match or not. We fix this by setting GTK_CSS_CHANGE_GOT_MATCH which lets us guarantee that change != 0 on any match. */ #define GTK_CSS_CHANGE_GOT_MATCH GTK_CSS_CHANGE_RESERVED_BIT static GtkCssChange gtk_css_selector_tree_collect_change (const GtkCssSelectorTree *tree) { GtkCssChange change = 0; const GtkCssSelectorTree *prev; for (prev = gtk_css_selector_tree_get_previous (tree); prev != NULL; prev = gtk_css_selector_tree_get_sibling (prev)) change |= gtk_css_selector_tree_collect_change (prev); change = tree->selector.class->get_change (&tree->selector, change); return change; } static GtkCssChange gtk_css_selector_tree_get_change (const GtkCssSelectorTree *tree, const GtkCssMatcher *matcher) { GtkCssChange change = 0; const GtkCssSelectorTree *prev; if (!gtk_css_selector_match (&tree->selector, matcher)) return 0; if (!tree->selector.class->is_simple) return gtk_css_selector_tree_collect_change (tree) | GTK_CSS_CHANGE_GOT_MATCH; for (prev = gtk_css_selector_tree_get_previous (tree); prev != NULL; prev = gtk_css_selector_tree_get_sibling (prev)) change |= gtk_css_selector_tree_get_change (prev, matcher); if (change || gtk_css_selector_tree_get_matches (tree)) change = tree->selector.class->get_change (&tree->selector, change & ~GTK_CSS_CHANGE_GOT_MATCH) | GTK_CSS_CHANGE_GOT_MATCH; return change; } GtkCssChange _gtk_css_selector_tree_get_change_all (const GtkCssSelectorTree *tree, const GtkCssMatcher *matcher) { GtkCssChange change; change = 0; /* no need to foreach here because we abort for non-simple selectors */ for (; tree != NULL; tree = gtk_css_selector_tree_get_sibling (tree)) change |= gtk_css_selector_tree_get_change (tree, matcher); /* Never return reserved bit set */ return change & ~GTK_CSS_CHANGE_RESERVED_BIT; } #ifdef PRINT_TREE static void _gtk_css_selector_tree_print (const GtkCssSelectorTree *tree, GString *str, char *prefix) { gboolean first = TRUE; int len, i; for (; tree != NULL; tree = gtk_css_selector_tree_get_sibling (tree), first = FALSE) { if (!first) g_string_append (str, prefix); if (first) { if (gtk_css_selector_tree_get_sibling (tree)) g_string_append (str, "─┬─"); else g_string_append (str, "───"); } else { if (gtk_css_selector_tree_get_sibling (tree)) g_string_append (str, " ├─"); else g_string_append (str, " └─"); } len = str->len; tree->selector.class->print (&tree->selector, str); len = str->len - len; if (gtk_css_selector_tree_get_previous (tree)) { GString *prefix2 = g_string_new (prefix); if (gtk_css_selector_tree_get_sibling (tree)) g_string_append (prefix2, " │ "); else g_string_append (prefix2, " "); for (i = 0; i < len; i++) g_string_append_c (prefix2, ' '); _gtk_css_selector_tree_print (gtk_css_selector_tree_get_previous (tree), str, prefix2->str); g_string_free (prefix2, TRUE); } else g_string_append (str, "\n"); } } #endif void _gtk_css_selector_tree_match_print (const GtkCssSelectorTree *tree, GString *str) { const GtkCssSelectorTree *iter; g_return_if_fail (tree != NULL); /* print name and * selector before others */ for (iter = tree; iter && iter->selector.class->is_simple; iter = gtk_css_selector_tree_get_parent (iter)) { if (iter->selector.class == >K_CSS_SELECTOR_NAME || iter->selector.class == >K_CSS_SELECTOR_ANY) { iter->selector.class->print (&iter->selector, str); } } /* now print other simple selectors */ for (iter = tree; iter && iter->selector.class->is_simple; iter = gtk_css_selector_tree_get_parent (iter)) { if (iter->selector.class != >K_CSS_SELECTOR_NAME && iter->selector.class != >K_CSS_SELECTOR_ANY) { iter->selector.class->print (&iter->selector, str); } } /* now if there's a combinator, print that one */ if (iter != NULL) { iter->selector.class->print (&iter->selector, str); tree = gtk_css_selector_tree_get_parent (iter); if (tree) _gtk_css_selector_tree_match_print (tree, str); } } void _gtk_css_selector_tree_free (GtkCssSelectorTree *tree) { if (tree == NULL) return; g_free (tree); } typedef struct { gpointer match; GtkCssSelector *current_selector; GtkCssSelectorTree **selector_match; } GtkCssSelectorRuleSetInfo; static GtkCssSelectorTree * get_tree (GByteArray *array, gint32 offset) { return (GtkCssSelectorTree *) (array->data + offset); } static GtkCssSelectorTree * alloc_tree (GByteArray *array, gint32 *offset) { GtkCssSelectorTree tree = { { NULL} }; *offset = array->len; g_byte_array_append (array, (guint8 *)&tree, sizeof (GtkCssSelectorTree)); return get_tree (array, *offset); } static gint32 subdivide_infos (GByteArray *array, GList *infos, gint32 parent_offset) { GHashTable *ht; GList *l; GList *matched; GList *remaining; gint32 tree_offset; GtkCssSelectorTree *tree; GtkCssSelectorRuleSetInfo *info; GtkCssSelector max_selector; GHashTableIter iter; guint max_count; gpointer key, value; GPtrArray *exact_matches; gint32 res; if (infos == NULL) return GTK_CSS_SELECTOR_TREE_EMPTY_OFFSET; ht = gtk_css_selectors_count_initial_init (); for (l = infos; l != NULL; l = l->next) { info = l->data; gtk_css_selectors_count_initial (info->current_selector, ht); } /* Pick the selector with highest count, and use as decision on this level as that makes it possible to skip the largest amount of checks later */ max_count = 0; g_hash_table_iter_init (&iter, ht); while (g_hash_table_iter_next (&iter, &key, &value)) { GtkCssSelector *selector = key; if (GPOINTER_TO_UINT (value) > max_count || (GPOINTER_TO_UINT (value) == max_count && gtk_css_selector_compare_one (selector, &max_selector) < 0)) { max_count = GPOINTER_TO_UINT (value); max_selector = *selector; } } matched = NULL; remaining = NULL; tree = alloc_tree (array, &tree_offset); tree->parent_offset = parent_offset; tree->selector = max_selector; exact_matches = NULL; for (l = infos; l != NULL; l = l->next) { info = l->data; if (gtk_css_selectors_has_initial_selector (info->current_selector, &max_selector)) { info->current_selector = gtk_css_selectors_skip_initial_selector (info->current_selector, &max_selector); if (info->current_selector == NULL) { /* Matches current node */ if (exact_matches == NULL) exact_matches = g_ptr_array_new (); g_ptr_array_add (exact_matches, info->match); if (info->selector_match != NULL) *info->selector_match = GUINT_TO_POINTER (tree_offset); } else matched = g_list_prepend (matched, info); } else { remaining = g_list_prepend (remaining, info); } } if (exact_matches) { g_ptr_array_add (exact_matches, NULL); /* Null terminate */ res = array->len; g_byte_array_append (array, (guint8 *)exact_matches->pdata, exact_matches->len * sizeof (gpointer)); g_ptr_array_free (exact_matches, TRUE); } else res = GTK_CSS_SELECTOR_TREE_EMPTY_OFFSET; get_tree (array, tree_offset)->matches_offset = res; res = subdivide_infos (array, matched, tree_offset); get_tree (array, tree_offset)->previous_offset = res; res = subdivide_infos (array, remaining, parent_offset); get_tree (array, tree_offset)->sibling_offset = res; g_list_free (matched); g_list_free (remaining); g_hash_table_unref (ht); return tree_offset; } struct _GtkCssSelectorTreeBuilder { GList *infos; }; GtkCssSelectorTreeBuilder * _gtk_css_selector_tree_builder_new (void) { return g_new0 (GtkCssSelectorTreeBuilder, 1); } void _gtk_css_selector_tree_builder_free (GtkCssSelectorTreeBuilder *builder) { g_list_free_full (builder->infos, g_free); g_free (builder); } void _gtk_css_selector_tree_builder_add (GtkCssSelectorTreeBuilder *builder, GtkCssSelector *selectors, GtkCssSelectorTree **selector_match, gpointer match) { GtkCssSelectorRuleSetInfo *info = g_new0 (GtkCssSelectorRuleSetInfo, 1); info->match = match; info->current_selector = selectors; info->selector_match = selector_match; builder->infos = g_list_prepend (builder->infos, info); } /* Convert all offsets to node-relative */ static void fixup_offsets (GtkCssSelectorTree *tree, guint8 *data) { while (tree != NULL) { if (tree->parent_offset != GTK_CSS_SELECTOR_TREE_EMPTY_OFFSET) tree->parent_offset -= ((guint8 *)tree - data); if (tree->previous_offset != GTK_CSS_SELECTOR_TREE_EMPTY_OFFSET) tree->previous_offset -= ((guint8 *)tree - data); if (tree->sibling_offset != GTK_CSS_SELECTOR_TREE_EMPTY_OFFSET) tree->sibling_offset -= ((guint8 *)tree - data); if (tree->matches_offset != GTK_CSS_SELECTOR_TREE_EMPTY_OFFSET) tree->matches_offset -= ((guint8 *)tree - data); fixup_offsets ((GtkCssSelectorTree *)gtk_css_selector_tree_get_previous (tree), data); tree = (GtkCssSelectorTree *)gtk_css_selector_tree_get_sibling (tree); } } GtkCssSelectorTree * _gtk_css_selector_tree_builder_build (GtkCssSelectorTreeBuilder *builder) { GtkCssSelectorTree *tree; GByteArray *array; guint8 *data; guint len; GList *l; GtkCssSelectorRuleSetInfo *info; array = g_byte_array_new (); subdivide_infos (array, builder->infos, GTK_CSS_SELECTOR_TREE_EMPTY_OFFSET); len = array->len; data = g_byte_array_free (array, FALSE); /* shrink to final size */ data = g_realloc (data, len); tree = (GtkCssSelectorTree *)data; fixup_offsets (tree, data); /* Convert offsets to final pointers */ for (l = builder->infos; l != NULL; l = l->next) { info = l->data; if (info->selector_match) *info->selector_match = (GtkCssSelectorTree *)(data + GPOINTER_TO_UINT (*info->selector_match)); } #ifdef PRINT_TREE { GString *s = g_string_new (""); _gtk_css_selector_tree_print (tree, s, ""); g_print ("%s", s->str); g_string_free (s, TRUE); } #endif return tree; }