/* Pango * pango-attributes.c: Attributed text * * Copyright (C) 2000-2002 Red Hat Software * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /** * SECTION:text-attributes * @short_description:Font and other attributes for annotating text * @title:Text Attributes * * Attributed text is used in a number of places in Pango. It * is used as the input to the itemization process and also when * creating a #PangoLayout. The data types and functions in * this section are used to represent and manipulate sets * of attributes applied to a portion of text. */ #include "config.h" #include #include "pango-attributes.h" #include "pango-impl-utils.h" struct _PangoAttrList { guint ref_count; GSList *attributes; GSList *attributes_tail; }; struct _PangoAttrIterator { GSList *next_attribute; GList *attribute_stack; guint start_index; guint end_index; }; static PangoAttribute *pango_attr_color_new (const PangoAttrClass *klass, guint16 red, guint16 green, guint16 blue); static PangoAttribute *pango_attr_string_new (const PangoAttrClass *klass, const char *str); static PangoAttribute *pango_attr_int_new (const PangoAttrClass *klass, int value); static PangoAttribute *pango_attr_float_new (const PangoAttrClass *klass, double value); static PangoAttribute *pango_attr_size_new_internal (int size, gboolean absolute); G_LOCK_DEFINE_STATIC (attr_type); static GHashTable *name_map = NULL; /* MT-safe */ /** * pango_attr_type_register: * @name: an identifier for the type * * Allocate a new attribute type ID. The attribute type name can be accessed * later by using pango_attr_type_get_name(). * * Return value: the new type ID. **/ PangoAttrType pango_attr_type_register (const gchar *name) { static guint current_type = 0x1000000; /* MT-safe */ guint type; G_LOCK (attr_type); type = current_type++; if (name) { if (G_UNLIKELY (!name_map)) name_map = g_hash_table_new (NULL, NULL); g_hash_table_insert (name_map, GUINT_TO_POINTER (type), (gpointer) g_intern_string (name)); } G_UNLOCK (attr_type); return type; } /** * pango_attr_type_get_name: * @type: an attribute type ID to fetch the name for * * Fetches the attribute type name passed in when registering the type using * pango_attr_type_register(). * * The returned value is an interned string (see g_intern_string() for what * that means) that should not be modified or freed. * * Return value: (nullable): the type ID name (which may be %NULL), or * %NULL if @type is a built-in Pango attribute type or invalid. * * Since: 1.22 **/ const char * pango_attr_type_get_name (PangoAttrType type) { const char *result = NULL; G_LOCK (attr_type); if (name_map) result = g_hash_table_lookup (name_map, GUINT_TO_POINTER ((guint) type)); G_UNLOCK (attr_type); return result; } /** * pango_attribute_init: * @attr: a #PangoAttribute * @klass: a #PangoAttrClass * * Initializes @attr's klass to @klass, * it's start_index to %PANGO_ATTR_INDEX_FROM_TEXT_BEGINNING * and end_index to %PANGO_ATTR_INDEX_TO_TEXT_END * such that the attribute applies * to the entire text by default. * * Since: 1.20 **/ void pango_attribute_init (PangoAttribute *attr, const PangoAttrClass *klass) { g_return_if_fail (attr != NULL); g_return_if_fail (klass != NULL); attr->klass = klass; attr->start_index = PANGO_ATTR_INDEX_FROM_TEXT_BEGINNING; attr->end_index = PANGO_ATTR_INDEX_TO_TEXT_END; } /** * pango_attribute_copy: * @attr: a #PangoAttribute * * Make a copy of an attribute. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attribute_copy (const PangoAttribute *attr) { PangoAttribute *result; g_return_val_if_fail (attr != NULL, NULL); result = attr->klass->copy (attr); result->start_index = attr->start_index; result->end_index = attr->end_index; return result; } /** * pango_attribute_destroy: * @attr: a #PangoAttribute. * * Destroy a #PangoAttribute and free all associated memory. **/ void pango_attribute_destroy (PangoAttribute *attr) { g_return_if_fail (attr != NULL); attr->klass->destroy (attr); } /** * pango_attribute_equal: * @attr1: a #PangoAttribute * @attr2: another #PangoAttribute * * Compare two attributes for equality. This compares only the * actual value of the two attributes and not the ranges that the * attributes apply to. * * Return value: %TRUE if the two attributes have the same value. **/ gboolean pango_attribute_equal (const PangoAttribute *attr1, const PangoAttribute *attr2) { g_return_val_if_fail (attr1 != NULL, FALSE); g_return_val_if_fail (attr2 != NULL, FALSE); if (attr1->klass->type != attr2->klass->type) return FALSE; return attr1->klass->equal (attr1, attr2); } static PangoAttribute * pango_attr_string_copy (const PangoAttribute *attr) { return pango_attr_string_new (attr->klass, ((PangoAttrString *)attr)->value); } static void pango_attr_string_destroy (PangoAttribute *attr) { PangoAttrString *sattr = (PangoAttrString *)attr; g_free (sattr->value); g_slice_free (PangoAttrString, sattr); } static gboolean pango_attr_string_equal (const PangoAttribute *attr1, const PangoAttribute *attr2) { return strcmp (((PangoAttrString *)attr1)->value, ((PangoAttrString *)attr2)->value) == 0; } static PangoAttribute * pango_attr_string_new (const PangoAttrClass *klass, const char *str) { PangoAttrString *result = g_slice_new (PangoAttrString); pango_attribute_init (&result->attr, klass); result->value = g_strdup (str); return (PangoAttribute *)result; } /** * pango_attr_family_new: * @family: the family or comma separated list of families * * Create a new font family attribute. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attr_family_new (const char *family) { static const PangoAttrClass klass = { PANGO_ATTR_FAMILY, pango_attr_string_copy, pango_attr_string_destroy, pango_attr_string_equal }; g_return_val_if_fail (family != NULL, NULL); return pango_attr_string_new (&klass, family); } static PangoAttribute * pango_attr_language_copy (const PangoAttribute *attr) { return pango_attr_language_new (((PangoAttrLanguage *)attr)->value); } static void pango_attr_language_destroy (PangoAttribute *attr) { PangoAttrLanguage *lattr = (PangoAttrLanguage *)attr; g_slice_free (PangoAttrLanguage, lattr); } static gboolean pango_attr_language_equal (const PangoAttribute *attr1, const PangoAttribute *attr2) { return ((PangoAttrLanguage *)attr1)->value == ((PangoAttrLanguage *)attr2)->value; } /** * pango_attr_language_new: * @language: language tag * * Create a new language tag attribute. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attr_language_new (PangoLanguage *language) { PangoAttrLanguage *result; static const PangoAttrClass klass = { PANGO_ATTR_LANGUAGE, pango_attr_language_copy, pango_attr_language_destroy, pango_attr_language_equal }; result = g_slice_new (PangoAttrLanguage); pango_attribute_init (&result->attr, &klass); result->value = language; return (PangoAttribute *)result; } static PangoAttribute * pango_attr_color_copy (const PangoAttribute *attr) { const PangoAttrColor *color_attr = (PangoAttrColor *)attr; return pango_attr_color_new (attr->klass, color_attr->color.red, color_attr->color.green, color_attr->color.blue); } static void pango_attr_color_destroy (PangoAttribute *attr) { PangoAttrColor *cattr = (PangoAttrColor *)attr; g_slice_free (PangoAttrColor, cattr); } static gboolean pango_attr_color_equal (const PangoAttribute *attr1, const PangoAttribute *attr2) { const PangoAttrColor *color_attr1 = (const PangoAttrColor *)attr1; const PangoAttrColor *color_attr2 = (const PangoAttrColor *)attr2; return (color_attr1->color.red == color_attr2->color.red && color_attr1->color.blue == color_attr2->color.blue && color_attr1->color.green == color_attr2->color.green); } static PangoAttribute * pango_attr_color_new (const PangoAttrClass *klass, guint16 red, guint16 green, guint16 blue) { PangoAttrColor *result = g_slice_new (PangoAttrColor); pango_attribute_init (&result->attr, klass); result->color.red = red; result->color.green = green; result->color.blue = blue; return (PangoAttribute *)result; } /** * pango_attr_foreground_new: * @red: the red value (ranging from 0 to 65535) * @green: the green value * @blue: the blue value * * Create a new foreground color attribute. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attr_foreground_new (guint16 red, guint16 green, guint16 blue) { static const PangoAttrClass klass = { PANGO_ATTR_FOREGROUND, pango_attr_color_copy, pango_attr_color_destroy, pango_attr_color_equal }; return pango_attr_color_new (&klass, red, green, blue); } /** * pango_attr_background_new: * @red: the red value (ranging from 0 to 65535) * @green: the green value * @blue: the blue value * * Create a new background color attribute. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attr_background_new (guint16 red, guint16 green, guint16 blue) { static const PangoAttrClass klass = { PANGO_ATTR_BACKGROUND, pango_attr_color_copy, pango_attr_color_destroy, pango_attr_color_equal }; return pango_attr_color_new (&klass, red, green, blue); } static PangoAttribute * pango_attr_int_copy (const PangoAttribute *attr) { const PangoAttrInt *int_attr = (PangoAttrInt *)attr; return pango_attr_int_new (attr->klass, int_attr->value); } static void pango_attr_int_destroy (PangoAttribute *attr) { PangoAttrInt *iattr = (PangoAttrInt *)attr; g_slice_free (PangoAttrInt, iattr); } static gboolean pango_attr_int_equal (const PangoAttribute *attr1, const PangoAttribute *attr2) { const PangoAttrInt *int_attr1 = (const PangoAttrInt *)attr1; const PangoAttrInt *int_attr2 = (const PangoAttrInt *)attr2; return (int_attr1->value == int_attr2->value); } static PangoAttribute * pango_attr_int_new (const PangoAttrClass *klass, int value) { PangoAttrInt *result = g_slice_new (PangoAttrInt); pango_attribute_init (&result->attr, klass); result->value = value; return (PangoAttribute *)result; } static PangoAttribute * pango_attr_float_copy (const PangoAttribute *attr) { const PangoAttrFloat *float_attr = (PangoAttrFloat *)attr; return pango_attr_float_new (attr->klass, float_attr->value); } static void pango_attr_float_destroy (PangoAttribute *attr) { PangoAttrFloat *fattr = (PangoAttrFloat *)attr; g_slice_free (PangoAttrFloat, fattr); } static gboolean pango_attr_float_equal (const PangoAttribute *attr1, const PangoAttribute *attr2) { const PangoAttrFloat *float_attr1 = (const PangoAttrFloat *)attr1; const PangoAttrFloat *float_attr2 = (const PangoAttrFloat *)attr2; return (float_attr1->value == float_attr2->value); } static PangoAttribute* pango_attr_float_new (const PangoAttrClass *klass, double value) { PangoAttrFloat *result = g_slice_new (PangoAttrFloat); pango_attribute_init (&result->attr, klass); result->value = value; return (PangoAttribute *)result; } static PangoAttribute * pango_attr_size_copy (const PangoAttribute *attr) { const PangoAttrSize *size_attr = (PangoAttrSize *)attr; if (attr->klass->type == PANGO_ATTR_ABSOLUTE_SIZE) return pango_attr_size_new_absolute (size_attr->size); else return pango_attr_size_new (size_attr->size); } static void pango_attr_size_destroy (PangoAttribute *attr) { PangoAttrSize *sattr = (PangoAttrSize *)attr; g_slice_free (PangoAttrSize, sattr); } static gboolean pango_attr_size_equal (const PangoAttribute *attr1, const PangoAttribute *attr2) { const PangoAttrSize *size_attr1 = (const PangoAttrSize *)attr1; const PangoAttrSize *size_attr2 = (const PangoAttrSize *)attr2; return size_attr1->size == size_attr2->size; } static PangoAttribute * pango_attr_size_new_internal (int size, gboolean absolute) { PangoAttrSize *result; static const PangoAttrClass klass = { PANGO_ATTR_SIZE, pango_attr_size_copy, pango_attr_size_destroy, pango_attr_size_equal }; static const PangoAttrClass absolute_klass = { PANGO_ATTR_ABSOLUTE_SIZE, pango_attr_size_copy, pango_attr_size_destroy, pango_attr_size_equal }; result = g_slice_new (PangoAttrSize); pango_attribute_init (&result->attr, absolute ? &absolute_klass : &klass); result->size = size; result->absolute = absolute; return (PangoAttribute *)result; } /** * pango_attr_size_new: * @size: the font size, in %PANGO_SCALEths of a point. * * Create a new font-size attribute in fractional points. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attr_size_new (int size) { return pango_attr_size_new_internal (size, FALSE); } /** * pango_attr_size_new_absolute: * @size: the font size, in %PANGO_SCALEths of a device unit. * * Create a new font-size attribute in device units. * * Return value: the newly allocated #PangoAttribute, which should be * freed with pango_attribute_destroy(). * * Since: 1.8 **/ PangoAttribute * pango_attr_size_new_absolute (int size) { return pango_attr_size_new_internal (size, TRUE); } /** * pango_attr_style_new: * @style: the slant style * * Create a new font slant style attribute. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attr_style_new (PangoStyle style) { static const PangoAttrClass klass = { PANGO_ATTR_STYLE, pango_attr_int_copy, pango_attr_int_destroy, pango_attr_int_equal }; return pango_attr_int_new (&klass, (int)style); } /** * pango_attr_weight_new: * @weight: the weight * * Create a new font weight attribute. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attr_weight_new (PangoWeight weight) { static const PangoAttrClass klass = { PANGO_ATTR_WEIGHT, pango_attr_int_copy, pango_attr_int_destroy, pango_attr_int_equal }; return pango_attr_int_new (&klass, (int)weight); } /** * pango_attr_variant_new: * @variant: the variant * * Create a new font variant attribute (normal or small caps) * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attr_variant_new (PangoVariant variant) { static const PangoAttrClass klass = { PANGO_ATTR_VARIANT, pango_attr_int_copy, pango_attr_int_destroy, pango_attr_int_equal }; return pango_attr_int_new (&klass, (int)variant); } /** * pango_attr_stretch_new: * @stretch: the stretch * * Create a new font stretch attribute * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attr_stretch_new (PangoStretch stretch) { static const PangoAttrClass klass = { PANGO_ATTR_STRETCH, pango_attr_int_copy, pango_attr_int_destroy, pango_attr_int_equal }; return pango_attr_int_new (&klass, (int)stretch); } static PangoAttribute * pango_attr_font_desc_copy (const PangoAttribute *attr) { const PangoAttrFontDesc *desc_attr = (const PangoAttrFontDesc *)attr; return pango_attr_font_desc_new (desc_attr->desc); } static void pango_attr_font_desc_destroy (PangoAttribute *attr) { PangoAttrFontDesc *desc_attr = (PangoAttrFontDesc *)attr; pango_font_description_free (desc_attr->desc); g_slice_free (PangoAttrFontDesc, desc_attr); } static gboolean pango_attr_font_desc_equal (const PangoAttribute *attr1, const PangoAttribute *attr2) { const PangoAttrFontDesc *desc_attr1 = (const PangoAttrFontDesc *)attr1; const PangoAttrFontDesc *desc_attr2 = (const PangoAttrFontDesc *)attr2; return pango_font_description_get_set_fields (desc_attr1->desc) == pango_font_description_get_set_fields (desc_attr2->desc) && pango_font_description_equal (desc_attr1->desc, desc_attr2->desc); } /** * pango_attr_font_desc_new: * @desc: the font description * * Create a new font description attribute. This attribute * allows setting family, style, weight, variant, stretch, * and size simultaneously. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attr_font_desc_new (const PangoFontDescription *desc) { static const PangoAttrClass klass = { PANGO_ATTR_FONT_DESC, pango_attr_font_desc_copy, pango_attr_font_desc_destroy, pango_attr_font_desc_equal }; PangoAttrFontDesc *result = g_slice_new (PangoAttrFontDesc); pango_attribute_init (&result->attr, &klass); result->desc = pango_font_description_copy (desc); return (PangoAttribute *)result; } /** * pango_attr_underline_new: * @underline: the underline style. * * Create a new underline-style attribute. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attr_underline_new (PangoUnderline underline) { static const PangoAttrClass klass = { PANGO_ATTR_UNDERLINE, pango_attr_int_copy, pango_attr_int_destroy, pango_attr_int_equal }; return pango_attr_int_new (&klass, (int)underline); } /** * pango_attr_underline_color_new: * @red: the red value (ranging from 0 to 65535) * @green: the green value * @blue: the blue value * * Create a new underline color attribute. This attribute * modifies the color of underlines. If not set, underlines * will use the foreground color. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). * * Since: 1.8 **/ PangoAttribute * pango_attr_underline_color_new (guint16 red, guint16 green, guint16 blue) { static const PangoAttrClass klass = { PANGO_ATTR_UNDERLINE_COLOR, pango_attr_color_copy, pango_attr_color_destroy, pango_attr_color_equal }; return pango_attr_color_new (&klass, red, green, blue); } /** * pango_attr_strikethrough_new: * @strikethrough: %TRUE if the text should be struck-through. * * Create a new strike-through attribute. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attr_strikethrough_new (gboolean strikethrough) { static const PangoAttrClass klass = { PANGO_ATTR_STRIKETHROUGH, pango_attr_int_copy, pango_attr_int_destroy, pango_attr_int_equal }; return pango_attr_int_new (&klass, (int)strikethrough); } /** * pango_attr_strikethrough_color_new: * @red: the red value (ranging from 0 to 65535) * @green: the green value * @blue: the blue value * * Create a new strikethrough color attribute. This attribute * modifies the color of strikethrough lines. If not set, strikethrough * lines will use the foreground color. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). * * Since: 1.8 **/ PangoAttribute * pango_attr_strikethrough_color_new (guint16 red, guint16 green, guint16 blue) { static const PangoAttrClass klass = { PANGO_ATTR_STRIKETHROUGH_COLOR, pango_attr_color_copy, pango_attr_color_destroy, pango_attr_color_equal }; return pango_attr_color_new (&klass, red, green, blue); } /** * pango_attr_rise_new: * @rise: the amount that the text should be displaced vertically, * in Pango units. Positive values displace the text upwards. * * Create a new baseline displacement attribute. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attr_rise_new (int rise) { static const PangoAttrClass klass = { PANGO_ATTR_RISE, pango_attr_int_copy, pango_attr_int_destroy, pango_attr_int_equal }; return pango_attr_int_new (&klass, (int)rise); } /** * pango_attr_scale_new: * @scale_factor: factor to scale the font * * Create a new font size scale attribute. The base font for the * affected text will have its size multiplied by @scale_factor. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute* pango_attr_scale_new (double scale_factor) { static const PangoAttrClass klass = { PANGO_ATTR_SCALE, pango_attr_float_copy, pango_attr_float_destroy, pango_attr_float_equal }; return pango_attr_float_new (&klass, scale_factor); } /** * pango_attr_fallback_new: * @enable_fallback: %TRUE if we should fall back on other fonts * for characters the active font is missing. * * Create a new font fallback attribute. * * If fallback is disabled, characters will only be used from the * closest matching font on the system. No fallback will be done to * other fonts on the system that might contain the characters in the * text. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). * * Since: 1.4 **/ PangoAttribute * pango_attr_fallback_new (gboolean enable_fallback) { static const PangoAttrClass klass = { PANGO_ATTR_FALLBACK, pango_attr_int_copy, pango_attr_int_destroy, pango_attr_int_equal, }; return pango_attr_int_new (&klass, (int)enable_fallback); } /** * pango_attr_letter_spacing_new: * @letter_spacing: amount of extra space to add between graphemes * of the text, in Pango units. * * Create a new letter-spacing attribute. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). * * Since: 1.6 **/ PangoAttribute * pango_attr_letter_spacing_new (int letter_spacing) { static const PangoAttrClass klass = { PANGO_ATTR_LETTER_SPACING, pango_attr_int_copy, pango_attr_int_destroy, pango_attr_int_equal }; return pango_attr_int_new (&klass, letter_spacing); } static PangoAttribute * pango_attr_shape_copy (const PangoAttribute *attr) { const PangoAttrShape *shape_attr = (PangoAttrShape *)attr; gpointer data; if (shape_attr->copy_func) data = shape_attr->copy_func (shape_attr->data); else data = shape_attr->data; return pango_attr_shape_new_with_data (&shape_attr->ink_rect, &shape_attr->logical_rect, data, shape_attr->copy_func, shape_attr->destroy_func); } static void pango_attr_shape_destroy (PangoAttribute *attr) { PangoAttrShape *shape_attr = (PangoAttrShape *)attr; if (shape_attr->destroy_func) shape_attr->destroy_func (shape_attr->data); g_slice_free (PangoAttrShape, shape_attr); } static gboolean pango_attr_shape_equal (const PangoAttribute *attr1, const PangoAttribute *attr2) { const PangoAttrShape *shape_attr1 = (const PangoAttrShape *)attr1; const PangoAttrShape *shape_attr2 = (const PangoAttrShape *)attr2; return (shape_attr1->logical_rect.x == shape_attr2->logical_rect.x && shape_attr1->logical_rect.y == shape_attr2->logical_rect.y && shape_attr1->logical_rect.width == shape_attr2->logical_rect.width && shape_attr1->logical_rect.height == shape_attr2->logical_rect.height && shape_attr1->ink_rect.x == shape_attr2->ink_rect.x && shape_attr1->ink_rect.y == shape_attr2->ink_rect.y && shape_attr1->ink_rect.width == shape_attr2->ink_rect.width && shape_attr1->ink_rect.height == shape_attr2->ink_rect.height && shape_attr1->data == shape_attr2->data); } /** * pango_attr_shape_new_with_data: * @ink_rect: ink rectangle to assign to each character * @logical_rect: logical rectangle to assign to each character * @data: user data pointer * @copy_func: (allow-none): function to copy @data when the * attribute is copied. If %NULL, @data is simply * copied as a pointer. * @destroy_func: (allow-none): function to free @data when the * attribute is freed, or %NULL * * Like pango_attr_shape_new(), but a user data pointer is also * provided; this pointer can be accessed when later * rendering the glyph. * * Return value: the newly allocated #PangoAttribute, which should be * freed with pango_attribute_destroy(). * * Since: 1.8 **/ PangoAttribute * pango_attr_shape_new_with_data (const PangoRectangle *ink_rect, const PangoRectangle *logical_rect, gpointer data, PangoAttrDataCopyFunc copy_func, GDestroyNotify destroy_func) { static const PangoAttrClass klass = { PANGO_ATTR_SHAPE, pango_attr_shape_copy, pango_attr_shape_destroy, pango_attr_shape_equal }; PangoAttrShape *result; g_return_val_if_fail (ink_rect != NULL, NULL); g_return_val_if_fail (logical_rect != NULL, NULL); result = g_slice_new (PangoAttrShape); pango_attribute_init (&result->attr, &klass); result->ink_rect = *ink_rect; result->logical_rect = *logical_rect; result->data = data; result->copy_func = copy_func; result->destroy_func = destroy_func; return (PangoAttribute *)result; } /** * pango_attr_shape_new: * @ink_rect: ink rectangle to assign to each character * @logical_rect: logical rectangle to assign to each character * * Create a new shape attribute. A shape is used to impose a * particular ink and logical rectangle on the result of shaping a * particular glyph. This might be used, for instance, for * embedding a picture or a widget inside a #PangoLayout. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). **/ PangoAttribute * pango_attr_shape_new (const PangoRectangle *ink_rect, const PangoRectangle *logical_rect) { g_return_val_if_fail (ink_rect != NULL, NULL); g_return_val_if_fail (logical_rect != NULL, NULL); return pango_attr_shape_new_with_data (ink_rect, logical_rect, NULL, NULL, NULL); } /** * pango_attr_gravity_new: * @gravity: the gravity value; should not be %PANGO_GRAVITY_AUTO. * * Create a new gravity attribute. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). * * Since: 1.16 **/ PangoAttribute * pango_attr_gravity_new (PangoGravity gravity) { static const PangoAttrClass klass = { PANGO_ATTR_GRAVITY, pango_attr_int_copy, pango_attr_int_destroy, pango_attr_int_equal }; g_return_val_if_fail (gravity != PANGO_GRAVITY_AUTO, NULL); return pango_attr_int_new (&klass, (int)gravity); } /** * pango_attr_gravity_hint_new: * @hint: the gravity hint value. * * Create a new gravity hint attribute. * * Return value: (transfer full): the newly allocated #PangoAttribute, * which should be freed with pango_attribute_destroy(). * * Since: 1.16 **/ PangoAttribute * pango_attr_gravity_hint_new (PangoGravityHint hint) { static const PangoAttrClass klass = { PANGO_ATTR_GRAVITY_HINT, pango_attr_int_copy, pango_attr_int_destroy, pango_attr_int_equal }; return pango_attr_int_new (&klass, (int)hint); } /* * Attribute List */ G_DEFINE_BOXED_TYPE (PangoAttrList, pango_attr_list, pango_attr_list_copy, pango_attr_list_unref); /** * pango_attr_list_new: * * Create a new empty attribute list with a reference count of one. * * Return value: (transfer full): the newly allocated #PangoAttrList, * which should be freed with pango_attr_list_unref(). **/ PangoAttrList * pango_attr_list_new (void) { PangoAttrList *list = g_slice_new (PangoAttrList); list->ref_count = 1; list->attributes = NULL; list->attributes_tail = NULL; return list; } /** * pango_attr_list_ref: * @list: (nullable): a #PangoAttrList, may be %NULL * * Increase the reference count of the given attribute list by one. * * Return value: The attribute list passed in * * Since: 1.10 **/ PangoAttrList * pango_attr_list_ref (PangoAttrList *list) { if (list == NULL) return NULL; g_atomic_int_inc ((int *) &list->ref_count); return list; } /** * pango_attr_list_unref: * @list: (nullable): a #PangoAttrList, may be %NULL * * Decrease the reference count of the given attribute list by one. * If the result is zero, free the attribute list and the attributes * it contains. **/ void pango_attr_list_unref (PangoAttrList *list) { GSList *tmp_list; if (list == NULL) return; g_return_if_fail (list->ref_count > 0); if (g_atomic_int_dec_and_test ((int *) &list->ref_count)) { tmp_list = list->attributes; while (tmp_list) { PangoAttribute *attr = tmp_list->data; tmp_list = tmp_list->next; attr->klass->destroy (attr); } g_slist_free (list->attributes); g_slice_free (PangoAttrList, list); } } /** * pango_attr_list_copy: * @list (nullable): a #PangoAttrList, may be %NULL * * Copy @list and return an identical new list. * * Return value: (nullable): the newly allocated #PangoAttrList, with a * reference count of one, which should * be freed with pango_attr_list_unref(). * Returns %NULL if @list was %NULL. **/ PangoAttrList * pango_attr_list_copy (PangoAttrList *list) { PangoAttrList *new; GSList *iter; GSList *new_attrs; if (list == NULL) return NULL; new = pango_attr_list_new (); iter = list->attributes; new_attrs = NULL; while (iter != NULL) { new_attrs = g_slist_prepend (new_attrs, pango_attribute_copy (iter->data)); iter = g_slist_next (iter); } /* we're going to reverse the nodes, so head becomes tail */ new->attributes_tail = new_attrs; new->attributes = g_slist_reverse (new_attrs); return new; } static void pango_attr_list_insert_internal (PangoAttrList *list, PangoAttribute *attr, gboolean before) { GSList *tmp_list, *prev, *link; guint start_index = attr->start_index; if (!list->attributes) { list->attributes = g_slist_prepend (NULL, attr); list->attributes_tail = list->attributes; } else if (((PangoAttribute *)list->attributes_tail->data)->start_index < start_index || (!before && ((PangoAttribute *)list->attributes_tail->data)->start_index == start_index)) { list->attributes_tail = g_slist_append (list->attributes_tail, attr); list->attributes_tail = list->attributes_tail->next; g_assert (list->attributes_tail); } else { prev = NULL; tmp_list = list->attributes; while (1) { PangoAttribute *tmp_attr = tmp_list->data; if (tmp_attr->start_index > start_index || (before && tmp_attr->start_index == start_index)) { link = g_slist_alloc (); link->next = tmp_list; link->data = attr; if (prev) prev->next = link; else list->attributes = link; if (!tmp_list) list->attributes_tail = link; break; } prev = tmp_list; tmp_list = tmp_list->next; } } } /** * pango_attr_list_insert: * @list: a #PangoAttrList * @attr: (transfer full): the attribute to insert. Ownership of this * value is assumed by the list. * * Insert the given attribute into the #PangoAttrList. It will * be inserted after all other attributes with a matching * @start_index. **/ void pango_attr_list_insert (PangoAttrList *list, PangoAttribute *attr) { g_return_if_fail (list != NULL); g_return_if_fail (attr != NULL); pango_attr_list_insert_internal (list, attr, FALSE); } /** * pango_attr_list_insert_before: * @list: a #PangoAttrList * @attr: (transfer full): the attribute to insert. Ownership of this * value is assumed by the list. * * Insert the given attribute into the #PangoAttrList. It will * be inserted before all other attributes with a matching * @start_index. **/ void pango_attr_list_insert_before (PangoAttrList *list, PangoAttribute *attr) { g_return_if_fail (list != NULL); g_return_if_fail (attr != NULL); pango_attr_list_insert_internal (list, attr, TRUE); } /** * pango_attr_list_change: * @list: a #PangoAttrList * @attr: (transfer full): the attribute to insert. Ownership of this * value is assumed by the list. * * Insert the given attribute into the #PangoAttrList. It will * replace any attributes of the same type on that segment * and be merged with any adjoining attributes that are identical. * * This function is slower than pango_attr_list_insert() for * creating a attribute list in order (potentially much slower * for large lists). However, pango_attr_list_insert() is not * suitable for continually changing a set of attributes * since it never removes or combines existing attributes. **/ void pango_attr_list_change (PangoAttrList *list, PangoAttribute *attr) { GSList *tmp_list, *prev, *link; guint start_index = attr->start_index; guint end_index = attr->end_index; g_return_if_fail (list != NULL); if (start_index == end_index) /* empty, nothing to do */ { pango_attribute_destroy (attr); return; } tmp_list = list->attributes; prev = NULL; while (1) { PangoAttribute *tmp_attr; if (!tmp_list || ((PangoAttribute *)tmp_list->data)->start_index > start_index) { /* We need to insert a new attribute */ link = g_slist_alloc (); link->next = tmp_list; link->data = attr; if (prev) prev->next = link; else list->attributes = link; if (!tmp_list) list->attributes_tail = link; prev = link; tmp_list = prev->next; break; } tmp_attr = tmp_list->data; if (tmp_attr->klass->type == attr->klass->type && tmp_attr->end_index >= start_index) { /* We overlap with an existing attribute */ if (pango_attribute_equal (tmp_attr, attr)) { /* We can merge the new attribute with this attribute */ if (tmp_attr->end_index >= end_index) { /* We are totally overlapping the previous attribute. * No action is needed. */ pango_attribute_destroy (attr); return; } tmp_attr->end_index = end_index; pango_attribute_destroy (attr); attr = tmp_attr; prev = tmp_list; tmp_list = tmp_list->next; break; } else { /* Split, truncate, or remove the old attribute */ if (tmp_attr->end_index > attr->end_index) { PangoAttribute *end_attr = pango_attribute_copy (tmp_attr); end_attr->start_index = attr->end_index; pango_attr_list_insert (list, end_attr); } if (tmp_attr->start_index == attr->start_index) { pango_attribute_destroy (tmp_attr); tmp_list->data = attr; prev = tmp_list; tmp_list = tmp_list->next; break; } else { tmp_attr->end_index = attr->start_index; } } } prev = tmp_list; tmp_list = tmp_list->next; } /* At this point, prev points to the list node with attr in it, * tmp_list points to prev->next. */ g_assert (prev->data == attr); g_assert (prev->next == tmp_list); /* We now have the range inserted into the list one way or the * other. Fix up the remainder */ while (tmp_list) { PangoAttribute *tmp_attr = tmp_list->data; if (tmp_attr->start_index > end_index) break; else if (tmp_attr->klass->type == attr->klass->type) { if (tmp_attr->end_index <= attr->end_index || pango_attribute_equal (tmp_attr, attr)) { /* We can merge the new attribute with this attribute. */ attr->end_index = MAX (end_index, tmp_attr->end_index); pango_attribute_destroy (tmp_attr); prev->next = tmp_list->next; if (!prev->next) list->attributes_tail = prev; g_slist_free_1 (tmp_list); tmp_list = prev->next; continue; } else { /* Trim the start of this attribute that it begins at the end * of the new attribute. This may involve moving * it in the list to maintain the required non-decreasing * order of start indices */ GSList *tmp_list2; GSList *prev2; tmp_attr->start_index = attr->end_index; tmp_list2 = tmp_list->next; prev2 = tmp_list; while (tmp_list2) { PangoAttribute *tmp_attr2 = tmp_list2->data; if (tmp_attr2->start_index >= tmp_attr->start_index) break; prev2 = tmp_list2; tmp_list2 = tmp_list2->next; } /* Now remove and insert before tmp_list2. We'll * hit this attribute again later, but that's harmless. */ if (prev2 != tmp_list) { GSList *old_next = tmp_list->next; prev->next = old_next; prev2->next = tmp_list; tmp_list->next = tmp_list2; if (!tmp_list->next) list->attributes_tail = tmp_list; tmp_list = old_next; continue; } } } prev = tmp_list; tmp_list = tmp_list->next; } } /** * pango_attr_list_splice: * @list: a #PangoAttrList * @other: another #PangoAttrList * @pos: the position in @list at which to insert @other * @len: the length of the spliced segment. (Note that this * must be specified since the attributes in @other * may only be present at some subsection of this range) * * This function opens up a hole in @list, fills it in with attributes from * the left, and then merges @other on top of the hole. * * This operation is equivalent to stretching every attribute * that applies at position @pos in @list by an amount @len, * and then calling pango_attr_list_change() with a copy * of each attribute in @other in sequence (offset in position by @pos). * * This operation proves useful for, for instance, inserting * a pre-edit string in the middle of an edit buffer. **/ void pango_attr_list_splice (PangoAttrList *list, PangoAttrList *other, gint pos, gint len) { GSList *tmp_list; guint upos, ulen; g_return_if_fail (list != NULL); g_return_if_fail (other != NULL); g_return_if_fail (pos >= 0); g_return_if_fail (len >= 0); upos = (guint)pos; ulen = (guint)len; /* This definition only works when a and b are unsigned; overflow * isn't defined in the C standard for signed integers */ #define CLAMP_ADD(a,b) (((a) + (b) < (a)) ? G_MAXUINT : (a) + (b)) tmp_list = list->attributes; while (tmp_list) { PangoAttribute *attr = tmp_list->data; if (attr->start_index <= upos) { if (attr->end_index > upos) attr->end_index = CLAMP_ADD (attr->end_index, ulen); } else { /* This could result in a zero length attribute if it * gets squashed up against G_MAXUINT, but deleting such * an element could (in theory) suprise the caller, so * we don't delete it. */ attr->start_index = CLAMP_ADD (attr->start_index, ulen); attr->end_index = CLAMP_ADD (attr->end_index, ulen); } tmp_list = tmp_list->next; } tmp_list = other->attributes; while (tmp_list) { PangoAttribute *attr = pango_attribute_copy (tmp_list->data); attr->start_index = CLAMP_ADD (attr->start_index, upos); attr->end_index = CLAMP_ADD (attr->end_index, upos); /* Same as above, the attribute could be squashed to zero-length; here * pango_attr_list_change() will take care of deleting it. */ pango_attr_list_change (list, attr); tmp_list = tmp_list->next; } #undef CLAMP_ADD } /** * pango_attr_list_get_iterator: * @list: a #PangoAttrList * * Create a iterator initialized to the beginning of the list. * @list must not be modified until this iterator is freed. * * Return value: (transfer full): the newly allocated #PangoAttrIterator, which should * be freed with pango_attr_iterator_destroy(). **/ PangoAttrIterator * pango_attr_list_get_iterator (PangoAttrList *list) { PangoAttrIterator *iterator; g_return_val_if_fail (list != NULL, NULL); iterator = g_slice_new (PangoAttrIterator); iterator->next_attribute = list->attributes; iterator->attribute_stack = NULL; iterator->start_index = 0; iterator->end_index = 0; if (!pango_attr_iterator_next (iterator)) iterator->end_index = G_MAXUINT; return iterator; } /** * pango_attr_iterator_range: * @iterator: a #PangoAttrIterator * @start: (out): location to store the start of the range * @end: (out): location to store the end of the range * * Get the range of the current segment. Note that the * stored return values are signed, not unsigned like * the values in #PangoAttribute. To deal with this API * oversight, stored return values that wouldn't fit into * a signed integer are clamped to %G_MAXINT. **/ void pango_attr_iterator_range (PangoAttrIterator *iterator, gint *start, gint *end) { g_return_if_fail (iterator != NULL); if (start) *start = MIN (iterator->start_index, G_MAXINT); if (end) *end = MIN (iterator->end_index, G_MAXINT); } /** * pango_attr_iterator_next: * @iterator: a #PangoAttrIterator * * Advance the iterator until the next change of style. * * Return value: %FALSE if the iterator is at the end of the list, otherwise %TRUE **/ gboolean pango_attr_iterator_next (PangoAttrIterator *iterator) { GList *tmp_list; g_return_val_if_fail (iterator != NULL, FALSE); if (!iterator->next_attribute && !iterator->attribute_stack) return FALSE; iterator->start_index = iterator->end_index; iterator->end_index = G_MAXUINT; tmp_list = iterator->attribute_stack; while (tmp_list) { GList *next = tmp_list->next; PangoAttribute *attr = tmp_list->data; if (attr->end_index == iterator->start_index) { iterator->attribute_stack = g_list_remove_link (iterator->attribute_stack, tmp_list); g_list_free_1 (tmp_list); } else { iterator->end_index = MIN (iterator->end_index, attr->end_index); } tmp_list = next; } while (iterator->next_attribute && ((PangoAttribute *)iterator->next_attribute->data)->start_index == iterator->start_index) { if (((PangoAttribute *)iterator->next_attribute->data)->end_index > iterator->start_index) { iterator->attribute_stack = g_list_prepend (iterator->attribute_stack, iterator->next_attribute->data); iterator->end_index = MIN (iterator->end_index, ((PangoAttribute *)iterator->next_attribute->data)->end_index); } iterator->next_attribute = iterator->next_attribute->next; } if (iterator->next_attribute) iterator->end_index = MIN (iterator->end_index, ((PangoAttribute *)iterator->next_attribute->data)->start_index); return TRUE; } /** * pango_attr_iterator_copy: * @iterator: a #PangoAttrIterator. * * Copy a #PangoAttrIterator * * Return value: (transfer full): the newly allocated * #PangoAttrIterator, which should be freed with * pango_attr_iterator_destroy(). **/ PangoAttrIterator * pango_attr_iterator_copy (PangoAttrIterator *iterator) { PangoAttrIterator *copy; g_return_val_if_fail (iterator != NULL, NULL); copy = g_slice_new (PangoAttrIterator); *copy = *iterator; copy->attribute_stack = g_list_copy (iterator->attribute_stack); return copy; } /** * pango_attr_iterator_destroy: * @iterator: a #PangoAttrIterator. * * Destroy a #PangoAttrIterator and free all associated memory. **/ void pango_attr_iterator_destroy (PangoAttrIterator *iterator) { g_return_if_fail (iterator != NULL); g_list_free (iterator->attribute_stack); g_slice_free (PangoAttrIterator, iterator); } /** * pango_attr_iterator_get: * @iterator: a #PangoAttrIterator * @type: the type of attribute to find. * * Find the current attribute of a particular type at the iterator * location. When multiple attributes of the same type overlap, * the attribute whose range starts closest to the current location * is used. * * Return value: (nullable): the current attribute of the given type, * or %NULL if no attribute of that type applies to the * current location. **/ PangoAttribute * pango_attr_iterator_get (PangoAttrIterator *iterator, PangoAttrType type) { GList *tmp_list; g_return_val_if_fail (iterator != NULL, NULL); tmp_list = iterator->attribute_stack; while (tmp_list) { PangoAttribute *attr = tmp_list->data; if (attr->klass->type == type) return attr; tmp_list = tmp_list->next; } return NULL; } /** * pango_attr_iterator_get_font: * @iterator: a #PangoAttrIterator * @desc: a #PangoFontDescription to fill in with the current values. * The family name in this structure will be set using * pango_font_description_set_family_static() using values from * an attribute in the #PangoAttrList associated with the iterator, * so if you plan to keep it around, you must call: * pango_font_description_set_family (desc, pango_font_description_get_family (desc)). * @language: (allow-none): if non-%NULL, location to store language tag for item, or %NULL * if none is found. * @extra_attrs: (allow-none) (element-type Pango.Attribute) (transfer full): if non-%NULL, * location in which to store a list of non-font * attributes at the the current position; only the highest priority * value of each attribute will be added to this list. In order * to free this value, you must call pango_attribute_destroy() on * each member. * * Get the font and other attributes at the current iterator position. **/ void pango_attr_iterator_get_font (PangoAttrIterator *iterator, PangoFontDescription *desc, PangoLanguage **language, GSList **extra_attrs) { GList *tmp_list1; GSList *tmp_list2; PangoFontMask mask = 0; gboolean have_language = FALSE; gdouble scale = 0; gboolean have_scale = FALSE; g_return_if_fail (iterator != NULL); g_return_if_fail (desc != NULL); if (language) *language = NULL; if (extra_attrs) *extra_attrs = NULL; tmp_list1 = iterator->attribute_stack; while (tmp_list1) { PangoAttribute *attr = tmp_list1->data; tmp_list1 = tmp_list1->next; switch ((int) attr->klass->type) { case PANGO_ATTR_FONT_DESC: { PangoFontMask new_mask = pango_font_description_get_set_fields (((PangoAttrFontDesc *)attr)->desc) & ~mask; mask |= new_mask; pango_font_description_unset_fields (desc, new_mask); pango_font_description_merge_static (desc, ((PangoAttrFontDesc *)attr)->desc, FALSE); break; } case PANGO_ATTR_FAMILY: if (!(mask & PANGO_FONT_MASK_FAMILY)) { mask |= PANGO_FONT_MASK_FAMILY; pango_font_description_set_family (desc, ((PangoAttrString *)attr)->value); } break; case PANGO_ATTR_STYLE: if (!(mask & PANGO_FONT_MASK_STYLE)) { mask |= PANGO_FONT_MASK_STYLE; pango_font_description_set_style (desc, ((PangoAttrInt *)attr)->value); } break; case PANGO_ATTR_VARIANT: if (!(mask & PANGO_FONT_MASK_VARIANT)) { mask |= PANGO_FONT_MASK_VARIANT; pango_font_description_set_variant (desc, ((PangoAttrInt *)attr)->value); } break; case PANGO_ATTR_WEIGHT: if (!(mask & PANGO_FONT_MASK_WEIGHT)) { mask |= PANGO_FONT_MASK_WEIGHT; pango_font_description_set_weight (desc, ((PangoAttrInt *)attr)->value); } break; case PANGO_ATTR_STRETCH: if (!(mask & PANGO_FONT_MASK_STRETCH)) { mask |= PANGO_FONT_MASK_STRETCH; pango_font_description_set_stretch (desc, ((PangoAttrInt *)attr)->value); } break; case PANGO_ATTR_SIZE: if (!(mask & PANGO_FONT_MASK_SIZE)) { mask |= PANGO_FONT_MASK_SIZE; pango_font_description_set_size (desc, ((PangoAttrSize *)attr)->size); } break; case PANGO_ATTR_ABSOLUTE_SIZE: if (!(mask & PANGO_FONT_MASK_SIZE)) { mask |= PANGO_FONT_MASK_SIZE; pango_font_description_set_absolute_size (desc, ((PangoAttrSize *)attr)->size); } break; case PANGO_ATTR_SCALE: if (!have_scale) { have_scale = TRUE; scale = ((PangoAttrFloat *)attr)->value; } break; case PANGO_ATTR_LANGUAGE: if (language) { if (!have_language) { have_language = TRUE; *language = ((PangoAttrLanguage *)attr)->value; } } break; default: if (extra_attrs) { gboolean found = FALSE; tmp_list2 = *extra_attrs; while (tmp_list2) { PangoAttribute *old_attr = tmp_list2->data; if (attr->klass->type == old_attr->klass->type) { found = TRUE; break; } tmp_list2 = tmp_list2->next; } if (!found) *extra_attrs = g_slist_prepend (*extra_attrs, pango_attribute_copy (attr)); } } } if (have_scale) { if (pango_font_description_get_size_is_absolute (desc)) pango_font_description_set_absolute_size (desc, scale * pango_font_description_get_size (desc)); else pango_font_description_set_size (desc, scale * pango_font_description_get_size (desc)); } } /** * pango_attr_list_filter: * @list: a #PangoAttrList * @func: (scope call) (closure data): callback function; returns %TRUE * if an attribute should be filtered out. * @data: (closure): Data to be passed to @func * * Given a #PangoAttrList and callback function, removes any elements * of @list for which @func returns %TRUE and inserts them into * a new list. * * Return value: (transfer full) (nullable): the new #PangoAttrList or * %NULL if no attributes of the given types were found. * * Since: 1.2 **/ PangoAttrList * pango_attr_list_filter (PangoAttrList *list, PangoAttrFilterFunc func, gpointer data) { PangoAttrList *new = NULL; GSList *tmp_list; GSList *prev; g_return_val_if_fail (list != NULL, NULL); tmp_list = list->attributes; prev = NULL; while (tmp_list) { GSList *next = tmp_list->next; PangoAttribute *tmp_attr = tmp_list->data; if ((*func) (tmp_attr, data)) { if (!tmp_list->next) list->attributes_tail = prev; if (prev) prev->next = tmp_list->next; else list->attributes = tmp_list->next; tmp_list->next = NULL; if (!new) { new = pango_attr_list_new (); new->attributes = new->attributes_tail = tmp_list; } else { new->attributes_tail->next = tmp_list; new->attributes_tail = tmp_list; } goto next_attr; } prev = tmp_list; next_attr: tmp_list = next; } return new; } /** * pango_attr_iterator_get_attrs: * @iterator: a #PangoAttrIterator * * Gets a list of all attributes at the current position of the * iterator. * * Return value: (element-type Pango.Attribute) (transfer full): a list of * all attributes for the current range. * To free this value, call pango_attribute_destroy() on * each value and g_slist_free() on the list. * * Since: 1.2 **/ GSList * pango_attr_iterator_get_attrs (PangoAttrIterator *iterator) { GSList *attrs = NULL; GList *tmp_list; for (tmp_list = iterator->attribute_stack; tmp_list; tmp_list = tmp_list->next) { PangoAttribute *attr = tmp_list->data; GSList *tmp_list2; gboolean found = FALSE; for (tmp_list2 = attrs; tmp_list2; tmp_list2 = tmp_list2->next) { PangoAttribute *old_attr = tmp_list2->data; if (attr->klass->type == old_attr->klass->type) { found = TRUE; break; } } if (!found) attrs = g_slist_prepend (attrs, pango_attribute_copy (attr)); } return attrs; }