/* * Copyright © 2012 Google, Inc. * * This is part of HarfBuzz, a text shaping library. * * Permission is hereby granted, without written agreement and without * license or royalty fees, to use, copy, modify, and distribute this * software and its documentation for any purpose, provided that the * above copyright notice and the following two paragraphs appear in * all copies of this software. * * IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE TO ANY PARTY FOR * DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES * ARISING OUT OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN * IF THE COPYRIGHT HOLDER HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH * DAMAGE. * * THE COPYRIGHT HOLDER SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING, * BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND * FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS * ON AN "AS IS" BASIS, AND THE COPYRIGHT HOLDER HAS NO OBLIGATION TO * PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS. * * Google Author(s): Behdad Esfahbod */ #include "hb-set.hh" /** * SECTION:hb-set * @title: hb-set * @short_description: Objects representing a set of integers * @include: hb.h * * Set objects represent a mathematical set of integer values. They are * used in non-shaping APIs to query certain sets of characters or glyphs, * or other integer values. **/ /** * hb_set_create: (Xconstructor) * * Creates a new, initially empty set. * * Return value: (transfer full): The new #hb_set_t * * Since: 0.9.2 **/ hb_set_t * hb_set_create () { hb_set_t *set; if (!(set = hb_object_create ())) return hb_set_get_empty (); set->init_shallow (); return set; } /** * hb_set_get_empty: * * Fetches the singleton empty #hb_set_t. * * Return value: (transfer full): The empty #hb_set_t * * Since: 0.9.2 **/ hb_set_t * hb_set_get_empty () { return const_cast (&Null (hb_set_t)); } /** * hb_set_reference: (skip) * @set: A set * * Increases the reference count on a set. * * Return value: (transfer full): The set * * Since: 0.9.2 **/ hb_set_t * hb_set_reference (hb_set_t *set) { return hb_object_reference (set); } /** * hb_set_destroy: (skip) * @set: A set * * Decreases the reference count on a set. When * the reference count reaches zero, the set is * destroyed, freeing all memory. * * Since: 0.9.2 **/ void hb_set_destroy (hb_set_t *set) { if (!hb_object_destroy (set)) return; set->fini_shallow (); hb_free (set); } /** * hb_set_set_user_data: (skip) * @set: A set * @key: The user-data key to set * @data: A pointer to the user data to set * @destroy: (nullable): A callback to call when @data is not needed anymore * @replace: Whether to replace an existing data with the same key * * Attaches a user-data key/data pair to the specified set. * * Return value: %true if success, %false otherwise * * Since: 0.9.2 **/ hb_bool_t hb_set_set_user_data (hb_set_t *set, hb_user_data_key_t *key, void * data, hb_destroy_func_t destroy, hb_bool_t replace) { return hb_object_set_user_data (set, key, data, destroy, replace); } /** * hb_set_get_user_data: (skip) * @set: A set * @key: The user-data key to query * * Fetches the user data associated with the specified key, * attached to the specified set. * * Return value: (transfer none): A pointer to the user data * * Since: 0.9.2 **/ void * hb_set_get_user_data (hb_set_t *set, hb_user_data_key_t *key) { return hb_object_get_user_data (set, key); } /** * hb_set_allocation_successful: * @set: A set * * Tests whether memory allocation for a set was successful. * * Return value: %true if allocation succeeded, %false otherwise * * Since: 0.9.2 **/ hb_bool_t hb_set_allocation_successful (const hb_set_t *set) { return set->successful; } /** * hb_set_copy: * @set: A set * * Allocate a copy of @set. * * Return value: Newly-allocated set. * * Since: 2.8.2 **/ hb_set_t * hb_set_copy (const hb_set_t *set) { hb_set_t *copy = hb_set_create (); copy->set (*set); return copy; } /** * hb_set_clear: * @set: A set * * Clears out the contents of a set. * * Since: 0.9.2 **/ void hb_set_clear (hb_set_t *set) { if (unlikely (hb_object_is_immutable (set))) return; set->clear (); } /** * hb_set_is_empty: * @set: a set. * * Tests whether a set is empty (contains no elements). * * Return value: %true if @set is empty * * Since: 0.9.7 **/ hb_bool_t hb_set_is_empty (const hb_set_t *set) { return set->is_empty (); } /** * hb_set_has: * @set: A set * @codepoint: The element to query * * Tests whether @codepoint belongs to @set. * * Return value: %true if @codepoint is in @set, %false otherwise * * Since: 0.9.2 **/ hb_bool_t hb_set_has (const hb_set_t *set, hb_codepoint_t codepoint) { return set->has (codepoint); } /** * hb_set_add: * @set: A set * @codepoint: The element to add to @set * * Adds @codepoint to @set. * * Since: 0.9.2 **/ void hb_set_add (hb_set_t *set, hb_codepoint_t codepoint) { set->add (codepoint); } /** * hb_set_add_range: * @set: A set * @first: The first element to add to @set * @last: The final element to add to @set * * Adds all of the elements from @first to @last * (inclusive) to @set. * * Since: 0.9.7 **/ void hb_set_add_range (hb_set_t *set, hb_codepoint_t first, hb_codepoint_t last) { set->add_range (first, last); } /** * hb_set_del: * @set: A set * @codepoint: Removes @codepoint from @set * * Removes @codepoint from @set. * * Since: 0.9.2 **/ void hb_set_del (hb_set_t *set, hb_codepoint_t codepoint) { set->del (codepoint); } /** * hb_set_del_range: * @set: A set * @first: The first element to remove from @set * @last: The final element to remove from @set * * Removes all of the elements from @first to @last * (inclusive) from @set. * * If @last is #HB_SET_VALUE_INVALID, then all values * greater than or equal to @first are removed. * * Since: 0.9.7 **/ void hb_set_del_range (hb_set_t *set, hb_codepoint_t first, hb_codepoint_t last) { set->del_range (first, last); } /** * hb_set_is_equal: * @set: A set * @other: Another set * * Tests whether @set and @other are equal (contain the same * elements). * * Return value: %true if the two sets are equal, %false otherwise. * * Since: 0.9.7 **/ hb_bool_t hb_set_is_equal (const hb_set_t *set, const hb_set_t *other) { return set->is_equal (*other); } /** * hb_set_is_subset: * @set: A set * @larger_set: Another set * * Tests whether @set is a subset of @larger_set. * * Return value: %true if the @set is a subset of (or equal to) @larger_set, %false otherwise. * * Since: 1.8.1 **/ hb_bool_t hb_set_is_subset (const hb_set_t *set, const hb_set_t *larger_set) { return set->is_subset (*larger_set); } /** * hb_set_set: * @set: A set * @other: Another set * * Makes the contents of @set equal to the contents of @other. * * Since: 0.9.2 **/ void hb_set_set (hb_set_t *set, const hb_set_t *other) { set->set (*other); } /** * hb_set_union: * @set: A set * @other: Another set * * Makes @set the union of @set and @other. * * Since: 0.9.2 **/ void hb_set_union (hb_set_t *set, const hb_set_t *other) { set->union_ (*other); } /** * hb_set_intersect: * @set: A set * @other: Another set * * Makes @set the intersection of @set and @other. * * Since: 0.9.2 **/ void hb_set_intersect (hb_set_t *set, const hb_set_t *other) { set->intersect (*other); } /** * hb_set_subtract: * @set: A set * @other: Another set * * Subtracts the contents of @other from @set. * * Since: 0.9.2 **/ void hb_set_subtract (hb_set_t *set, const hb_set_t *other) { set->subtract (*other); } /** * hb_set_symmetric_difference: * @set: A set * @other: Another set * * Makes @set the symmetric difference of @set * and @other. * * Since: 0.9.2 **/ void hb_set_symmetric_difference (hb_set_t *set, const hb_set_t *other) { set->symmetric_difference (*other); } #ifndef HB_DISABLE_DEPRECATED /** * hb_set_invert: * @set: A set * * Inverts the contents of @set. * * Since: 0.9.10 * * Deprecated: 1.6.1 **/ void hb_set_invert (hb_set_t *set HB_UNUSED) { } #endif /** * hb_set_get_population: * @set: A set * * Returns the number of elements in the set. * * Return value: The population of @set * * Since: 0.9.7 **/ unsigned int hb_set_get_population (const hb_set_t *set) { return set->get_population (); } /** * hb_set_get_min: * @set: A set * * Finds the smallest element in the set. * * Return value: minimum of @set, or #HB_SET_VALUE_INVALID if @set is empty. * * Since: 0.9.7 **/ hb_codepoint_t hb_set_get_min (const hb_set_t *set) { return set->get_min (); } /** * hb_set_get_max: * @set: A set * * Finds the largest element in the set. * * Return value: maximum of @set, or #HB_SET_VALUE_INVALID if @set is empty. * * Since: 0.9.7 **/ hb_codepoint_t hb_set_get_max (const hb_set_t *set) { return set->get_max (); } /** * hb_set_next: * @set: A set * @codepoint: (inout): Input = Code point to query * Output = Code point retrieved * * Fetches the next element in @set that is greater than current value of @codepoint. * * Set @codepoint to #HB_SET_VALUE_INVALID to get started. * * Return value: %true if there was a next value, %false otherwise * * Since: 0.9.2 **/ hb_bool_t hb_set_next (const hb_set_t *set, hb_codepoint_t *codepoint) { return set->next (codepoint); } /** * hb_set_previous: * @set: A set * @codepoint: (inout): Input = Code point to query * Output = Code point retrieved * * Fetches the previous element in @set that is lower than current value of @codepoint. * * Set @codepoint to #HB_SET_VALUE_INVALID to get started. * * Return value: %true if there was a previous value, %false otherwise * * Since: 1.8.0 **/ hb_bool_t hb_set_previous (const hb_set_t *set, hb_codepoint_t *codepoint) { return set->previous (codepoint); } /** * hb_set_next_range: * @set: A set * @first: (out): The first code point in the range * @last: (inout): Input = The current last code point in the range * Output = The last code point in the range * * Fetches the next consecutive range of elements in @set that * are greater than current value of @last. * * Set @last to #HB_SET_VALUE_INVALID to get started. * * Return value: %true if there was a next range, %false otherwise * * Since: 0.9.7 **/ hb_bool_t hb_set_next_range (const hb_set_t *set, hb_codepoint_t *first, hb_codepoint_t *last) { return set->next_range (first, last); } /** * hb_set_previous_range: * @set: A set * @first: (inout): Input = The current first code point in the range * Output = The first code point in the range * @last: (out): The last code point in the range * * Fetches the previous consecutive range of elements in @set that * are greater than current value of @last. * * Set @first to #HB_SET_VALUE_INVALID to get started. * * Return value: %true if there was a previous range, %false otherwise * * Since: 1.8.0 **/ hb_bool_t hb_set_previous_range (const hb_set_t *set, hb_codepoint_t *first, hb_codepoint_t *last) { return set->previous_range (first, last); }