// Copyright (c) Facebook, Inc. and its affiliates. // SPDX-License-Identifier: GPL-3.0+ /** * @file * * Dynamic arrays. * * See @ref Vectors. */ #ifndef DRGN_VECTOR_H #define DRGN_VECTOR_H #include #include // IWYU pragma: keep #include // IWYU pragma: keep /** * @ingroup Internals * * @defgroup Vectors Vectors * * Dynamic arrays (a.k.a.\ vectors). * * This is a basic implementation of generic, strongly-typed vectors. * * A vector is defined with @ref DEFINE_VECTOR(). Each generated vector * interface is prefixed with a given name; the interface documented here uses * the example name @c vector. * * @{ */ #ifdef DOXYGEN /** * Vector instance. * * There are no requirements on how this is allocated; it may be global, on the * stack, allocated by @c malloc(), embedded in another structure, etc. */ struct vector { /** * The underlying array of entries. * * This may be accessed directly. It may be reallocated as noted. * * A common pattern is using a @c vector to build an array and then * returning the raw array. To do so, don't call @ref vector_deinit(), * then return @c data and free it with @ref free(). */ entry_type *data; /** The number of entries in a @ref vector. */ size_t size; /** * The number of allocated elements in @ref vector::data. * * This should not be modified. */ size_t capacity; }; /** * Initialize a @ref vector. * * The new vector is empty. * * @sa VECTOR_INIT */ void vector_init(struct vector *vector); /** * Free memory allocated by a @ref vector. * * This frees @ref vector::data. */ void vector_deinit(struct vector *vector); /** * Increase the capacity of a @ref vector. * * If @p capacity is greater than the current capacity of the @ref vector, this * reallocates @ref vector::data and increases @ref vector::capacity to at least * @p capacity. Otherwise, it does nothing. * * @return @c true on success, @c false on failure. */ bool vector_reserve(struct vector *vector, size_t capacity); /** * Free unused memory in a @ref vector. * * This may reallocate @ref vector::data and set @ref vector::capacity to @ref * vector::size. It may also do nothing. */ void vector_shrink_to_fit(struct vector *vector); /** * Append to a @ref vector. * * This increases @ref vector::size by one. It may reallocate @ref vector::data * and change @ref vector::capacity. * * @return @c true on success, @c false on failure to allocate memory. */ bool vector_append(struct vector *vector, const entry_type *entry); /** * Append an uninitialized entry to a @ref vector. * * Like @ref vector_append(), but return a pointer to the new (uninitialized) * entry. * * @return The new entry on success, @c NULL on failure to allocate memory. */ entry_type *vector_append_entry(struct vector *vector); /** * Remove and return the last entry in a @ref vector. * * The vector is assumed to be non-empty. This descreases @ref vector::size by * one. It does not reallocate @ref vector::data. * * @return A pointer to the removed entry, which remains valid until another * entry is inserted in its place or @ref vector::data is reallocated. */ entry_type *vector_pop(struct vector *vector); #endif bool vector_do_reserve(size_t new_capacity, size_t entry_size, void **data, size_t *capacity); void vector_do_shrink_to_fit(size_t size, size_t entry_size, void **data, size_t *capacity); bool vector_reserve_for_append(size_t size, size_t entry_size, void **data, size_t *capacity); /** * Define a vector type without defining its functions. * * This is useful when the vector type must be defined in one place (e.g., a * header) but the interface is defined elsewhere (e.g., a source file) with * @ref DEFINE_VECTOR_FUNCTIONS(). Otherwise, just use @ref DEFINE_VECTOR(). * * @sa DEFINE_VECTOR() */ #define DEFINE_VECTOR_TYPE(vector, entry_type) \ typedef typeof(entry_type) vector##_entry_type; \ \ struct vector { \ vector##_entry_type *data; \ size_t size; \ size_t capacity; \ }; /** * Define the functions for a vector. * * The vector type must have already been defined with @ref * DEFINE_VECTOR_TYPE(). * * Unless the type and function definitions must be in separate places, use @ref * DEFINE_VECTOR() instead. * * @sa DEFINE_VECTOR() */ #define DEFINE_VECTOR_FUNCTIONS(vector) \ __attribute__((__unused__)) \ static void vector##_init(struct vector *vector) \ { \ vector->data = NULL; \ vector->size = vector->capacity = 0; \ } \ \ __attribute__((__unused__)) \ static void vector##_deinit(struct vector *vector) \ { \ free(vector->data); \ } \ \ __attribute__((__unused__)) \ static bool vector##_reserve(struct vector *vector, size_t capacity) \ { \ return vector_do_reserve(capacity, sizeof(*vector->data), \ (void **)&vector->data, &vector->capacity); \ } \ \ __attribute__((__unused__)) \ static void vector##_shrink_to_fit(struct vector *vector) \ { \ vector_do_shrink_to_fit(vector->size, sizeof(*vector->data), \ (void **)&vector->data, &vector->capacity); \ } \ \ static vector##_entry_type *vector##_append_entry(struct vector *vector) \ { \ if (!vector_reserve_for_append(vector->size, sizeof(*vector->data), \ (void **)&vector->data, \ &vector->capacity)) \ return NULL; \ return &vector->data[vector->size++]; \ } \ \ __attribute__((__unused__)) \ static bool vector##_append(struct vector *vector, \ const vector##_entry_type *entry) \ { \ vector##_entry_type *new_entry; \ \ new_entry = vector##_append_entry(vector); \ if (!new_entry) \ return false; \ memcpy(new_entry, entry, sizeof(*entry)); \ return true; \ } \ \ __attribute__((__unused__)) \ static vector##_entry_type *vector##_pop(struct vector *vector) \ { \ return &vector->data[--vector->size]; \ } /** * Define a vector interface. * * This macro defines a vector type along with its functions. * * @param[in] vector Name of the type to define. This is prefixed to all of the * types and functions defined for that type. * @param[in] entry_type Type of entries in the vector. */ #define DEFINE_VECTOR(vector, entry_type) \ DEFINE_VECTOR_TYPE(vector, entry_type) \ DEFINE_VECTOR_FUNCTIONS(vector) /** * Empty vector initializer. * * This can be used to initialize a vector when declaring it. * * @sa vector_init() */ #define VECTOR_INIT { NULL } /** @} */ #endif /* DRGN_VECTOR_H */