/** * @file pm_constant_pool.h * * A data structure that stores a set of strings. * * Each string is assigned a unique id, which can be used to compare strings for * equality. This comparison ends up being much faster than strcmp, since it * only requires a single integer comparison. */ #ifndef PRISM_CONSTANT_POOL_H #define PRISM_CONSTANT_POOL_H #include "prism/defines.h" #include #include #include #include #include /** * A constant id is a unique identifier for a constant in the constant pool. */ typedef uint32_t pm_constant_id_t; /** * A list of constant IDs. Usually used to represent a set of locals. */ typedef struct { /** The number of constant ids in the list. */ size_t size; /** The number of constant ids that have been allocated in the list. */ size_t capacity; /** The constant ids in the list. */ pm_constant_id_t *ids; } pm_constant_id_list_t; /** * Initialize a list of constant ids. * * @param list The list to initialize. */ void pm_constant_id_list_init(pm_constant_id_list_t *list); /** * Append a constant id to a list of constant ids. Returns false if any * potential reallocations fail. * * @param list The list to append to. * @param id The id to append. * @return Whether the append succeeded. */ bool pm_constant_id_list_append(pm_constant_id_list_t *list, pm_constant_id_t id); /** * Checks if the current constant id list includes the given constant id. * * @param list The list to check. * @param id The id to check for. * @return Whether the list includes the given id. */ bool pm_constant_id_list_includes(pm_constant_id_list_t *list, pm_constant_id_t id); /** * Get the memory size of a list of constant ids. * * @param list The list to get the memory size of. * @return The memory size of the list. */ size_t pm_constant_id_list_memsize(pm_constant_id_list_t *list); /** * Free the memory associated with a list of constant ids. * * @param list The list to free. */ void pm_constant_id_list_free(pm_constant_id_list_t *list); /** * The type of bucket in the constant pool hash map. This determines how the * bucket should be freed. */ typedef unsigned int pm_constant_pool_bucket_type_t; /** By default, each constant is a slice of the source. */ static const pm_constant_pool_bucket_type_t PM_CONSTANT_POOL_BUCKET_DEFAULT = 0; /** An owned constant is one for which memory has been allocated. */ static const pm_constant_pool_bucket_type_t PM_CONSTANT_POOL_BUCKET_OWNED = 1; /** A constant constant is known at compile time. */ static const pm_constant_pool_bucket_type_t PM_CONSTANT_POOL_BUCKET_CONSTANT = 2; /** A bucket in the hash map. */ typedef struct { /** The incremental ID used for indexing back into the pool. */ unsigned int id: 30; /** The type of the bucket, which determines how to free it. */ pm_constant_pool_bucket_type_t type: 2; /** The hash of the bucket. */ uint32_t hash; } pm_constant_pool_bucket_t; /** A constant in the pool which effectively stores a string. */ typedef struct { /** A pointer to the start of the string. */ const uint8_t *start; /** The length of the string. */ size_t length; } pm_constant_t; /** The overall constant pool, which stores constants found while parsing. */ typedef struct { /** The buckets in the hash map. */ pm_constant_pool_bucket_t *buckets; /** The constants that are stored in the buckets. */ pm_constant_t *constants; /** The number of buckets in the hash map. */ uint32_t size; /** The number of buckets that have been allocated in the hash map. */ uint32_t capacity; } pm_constant_pool_t; /** * Initialize a new constant pool with a given capacity. * * @param pool The pool to initialize. * @param capacity The initial capacity of the pool. * @return Whether the initialization succeeded. */ bool pm_constant_pool_init(pm_constant_pool_t *pool, uint32_t capacity); /** * Return a pointer to the constant indicated by the given constant id. * * @param pool The pool to get the constant from. * @param constant_id The id of the constant to get. * @return A pointer to the constant. */ pm_constant_t * pm_constant_pool_id_to_constant(const pm_constant_pool_t *pool, pm_constant_id_t constant_id); /** * Insert a constant into a constant pool that is a slice of a source string. * Returns the id of the constant, or 0 if any potential calls to resize fail. * * @param pool The pool to insert the constant into. * @param start A pointer to the start of the constant. * @param length The length of the constant. * @return The id of the constant. */ pm_constant_id_t pm_constant_pool_insert_shared(pm_constant_pool_t *pool, const uint8_t *start, size_t length); /** * Insert a constant into a constant pool from memory that is now owned by the * constant pool. Returns the id of the constant, or 0 if any potential calls to * resize fail. * * @param pool The pool to insert the constant into. * @param start A pointer to the start of the constant. * @param length The length of the constant. * @return The id of the constant. */ pm_constant_id_t pm_constant_pool_insert_owned(pm_constant_pool_t *pool, const uint8_t *start, size_t length); /** * Insert a constant into a constant pool from memory that is constant. Returns * the id of the constant, or 0 if any potential calls to resize fail. * * @param pool The pool to insert the constant into. * @param start A pointer to the start of the constant. * @param length The length of the constant. * @return The id of the constant. */ pm_constant_id_t pm_constant_pool_insert_constant(pm_constant_pool_t *pool, const uint8_t *start, size_t length); /** * Free the memory associated with a constant pool. * * @param pool The pool to free. */ void pm_constant_pool_free(pm_constant_pool_t *pool); #endif