/* * Copyright (c) 2007,2008 Mij * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ /* * SimCList library. See http://mij.oltrelinux.com/devel/simclist */ #ifndef SIMCLIST_H #define SIMCLIST_H #ifdef __cplusplus extern "C" { #endif /* work around lack of inttypes.h support in broken Microsoft Visual Studio compilers */ #if defined(_MSC_VER) #include typedef UINT8 uint8_t; typedef UINT16 uint16_t; typedef ULONG32 uint32_t; typedef UINT64 uint64_t; typedef INT8 int8_t; typedef INT16 int16_t; typedef LONG32 int32_t; typedef INT64 int64_t; #else #include /* (u)int*_t */ #endif #include #include /* Be friend of both C90 and C99 compilers */ #if defined(__STDC_VERSION__) && __STDC_VERSION__ >= 199901L /* "inline" and "restrict" are keywords */ #else # define inline /* inline */ # define restrict /* restrict */ #endif /** * Type representing list hashes. * * This is a signed integer value. */ typedef int32_t list_hash_t; #ifdef SIMCLIST_DUMPRESTORE typedef struct { uint16_t version; /* dump version */ int64_t timestamp; /* when the list has been dumped, microseconds from UNIX epoch */ uint32_t list_size; uint32_t list_numels; list_hash_t list_hash; /* hash of the list when dumped, or 0 if invalid */ uint32_t dumpsize; int consistent; /* 1 if the dump is verified complete/consistent; 0 otherwise */ } list_dump_info_t; #endif /** * a comparator of elements. * * A comparator of elements is a function that: * -# receives two references to elements a and b * -# returns {<0, 0, >0} if (a > b), (a == b), (a < b) respectively * * It is responsability of the function to handle possible NULL values. */ typedef int (*element_comparator)(const void *a, const void *b); /** * a seeker of elements. * * An element seeker is a function that: * -# receives a reference to an element el * -# receives a reference to some indicator data * -# returns non-0 if the element matches the indicator, 0 otherwise * * It is responsability of the function to handle possible NULL values in any * argument. */ typedef int (*element_seeker)(const void *el, const void *indicator); /** * an element lenght meter. * * An element meter is a function that: * -# receives the reference to an element el * -# returns its size in bytes * * It is responsability of the function to handle possible NULL values. */ typedef size_t (*element_meter)(const void *el); /** * a function computing the hash of elements. * * An hash computing function is a function that: * -# receives the reference to an element el * -# returns a hash value for el * * It is responsability of the function to handle possible NULL values. */ typedef list_hash_t (*element_hash_computer)(const void *el); /** * a function for serializing an element. * * A serializer function is one that gets a reference to an element, * and returns a reference to a buffer that contains its serialization * along with the length of this buffer. * It is responsability of the function to handle possible NULL values, * returning a NULL buffer and a 0 buffer length. * * These functions have 3 goals: * -# "freeze" and "flatten" the memory representation of the element * -# provide a portable (wrt byte order, or type size) representation of the element, if the dump can be used on different sw/hw combinations * -# possibly extract a compressed representation of the element * * @param el reference to the element data * @param serialize_buffer reference to fill with the length of the buffer * @return reference to the buffer with the serialized data */ typedef void *(*element_serializer)(const void *restrict el, uint32_t *restrict serializ_len); /** * a function for un-serializing an element. * * An unserializer function accomplishes the inverse operation of the * serializer function. An unserializer function is one that gets a * serialized representation of an element and turns it backe to the original * element. The serialized representation is passed as a reference to a buffer * with its data, and the function allocates and returns the buffer containing * the original element, and it sets the length of this buffer into the * integer passed by reference. * * @param data reference to the buffer with the serialized representation of the element * @param data_len reference to the location where to store the length of the data in the buffer returned * @return reference to a buffer with the original, unserialized representation of the element */ typedef void *(*element_unserializer)(const void *restrict data, uint32_t *restrict data_len); /* [private-use] list entry -- olds actual user datum */ struct list_entry_s { void *data; /* doubly-linked list service references */ struct list_entry_s *next; struct list_entry_s *prev; }; /* [private-use] list attributes */ struct list_attributes_s { /* user-set routine for comparing list elements */ element_comparator comparator; /* user-set routing for seeking elements */ element_seeker seeker; /* user-set routine for determining the length of an element */ element_meter meter; int copy_data; /* user-set routine for computing the hash of an element */ element_hash_computer hasher; /* user-set routine for serializing an element */ element_serializer serializer; /* user-set routine for unserializing an element */ element_unserializer unserializer; }; /** list object */ typedef struct { struct list_entry_s *head_sentinel; struct list_entry_s *tail_sentinel; struct list_entry_s *mid; unsigned int numels; /* array of spare elements */ struct list_entry_s **spareels; unsigned int spareelsnum; #ifdef SIMCLIST_WITH_THREADS /* how many threads are currently running */ unsigned int threadcount; #endif /* service variables for list iteration */ int iter_active; unsigned int iter_pos; struct list_entry_s *iter_curentry; /* list attributes */ struct list_attributes_s attrs; } list_t; /** * initialize a list object for use. * * @param l must point to a user-provided memory location * @return 0 for success. -1 for failure */ int list_init(list_t *restrict l); /** * completely remove the list from memory. * * This function is the inverse of list_init(). It is meant to be called when * the list is no longer going to be used. Elements and possible memory taken * for internal use are freed. * * @param l list to destroy */ void list_destroy(list_t *restrict l); /** * set the comparator function for list elements. * * Comparator functions are used for searching and sorting. If NULL is passed * as reference to the function, the comparator is disabled. * * @param l list to operate * @param comparator_fun pointer to the actual comparator function * @return 0 if the attribute was successfully set; -1 otherwise * * @see element_comparator() */ int list_attributes_comparator(list_t *restrict l, element_comparator comparator_fun); /** * set a seeker function for list elements. * * Seeker functions are used for finding elements. If NULL is passed as reference * to the function, the seeker is disabled. * * @param l list to operate * @param seeker_fun pointer to the actual seeker function * @return 0 if the attribute was successfully set; -1 otherwise * * @see element_seeker() */ int list_attributes_seeker(list_t *restrict l, element_seeker seeker_fun); /** * require to free element data when list entry is removed (default: don't free). * * [ advanced preference ] * * By default, when an element is removed from the list, it disappears from * the list by its actual data is not free()d. With this option, every * deletion causes element data to be freed. * * It is responsability of this function to correctly handle NULL values, if * NULL elements are inserted into the list. * * @param l list to operate * @param metric_fun pointer to the actual metric function * @param copy_data 0: do not free element data (default); non-0: do free * @return 0 if the attribute was successfully set; -1 otherwise * * @see element_meter() * @see list_meter_int8_t() * @see list_meter_int16_t() * @see list_meter_int32_t() * @see list_meter_int64_t() * @see list_meter_uint8_t() * @see list_meter_uint16_t() * @see list_meter_uint32_t() * @see list_meter_uint64_t() * @see list_meter_float() * @see list_meter_double() * @see list_meter_string() */ int list_attributes_copy(list_t *restrict l, element_meter metric_fun, int copy_data); /** * set the element hash computing function for the list elements. * * [ advanced preference ] * * An hash can be requested depicting the list status at a given time. An hash * only depends on the elements and their order. By default, the hash of an * element is only computed on its reference. With this function, the user can * set a custom function computing the hash of an element. If such function is * provided, the list_hash() function automatically computes the list hash using * the custom function instead of simply referring to element references. * * @param l list to operate * @param hash_computer_fun pointer to the actual hash computing function * @return 0 if the attribute was successfully set; -1 otherwise * * @see element_hash_computer() */ int list_attributes_hash_computer(list_t *restrict l, element_hash_computer hash_computer_fun); /** * set the element serializer function for the list elements. * * [ advanced preference ] * * Serialize functions are used for dumping the list to some persistent * storage. The serializer function is called for each element; it is passed * a reference to the element and a reference to a size_t object. It will * provide (and return) the buffer with the serialization of the element and * fill the size_t object with the length of this serialization data. * * @param l list to operate * @param serializer_fun pointer to the actual serializer function * @return 0 if the attribute was successfully set; -1 otherwise * * @see element_serializer() * @see list_dump_filedescriptor() * @see list_restore_filedescriptor() */ int list_attributes_serializer(list_t *restrict l, element_serializer serializer_fun); /** * set the element unserializer function for the list elements. * * [ advanced preference ] * * Unserialize functions are used for restoring the list from some persistent * storage. The unserializer function is called for each element segment read * from the storage; it is passed the segment and a reference to an integer. * It shall allocate and return a buffer compiled with the resumed memory * representation of the element, and set the integer value to the length of * this buffer. * * @param l list to operate * @param unserializer_fun pointer to the actual unserializer function * @return 0 if the attribute was successfully set; -1 otherwise * * @see element_unserializer() * @see list_dump_filedescriptor() * @see list_restore_filedescriptor() */ int list_attributes_unserializer(list_t *restrict l, element_unserializer unserializer_fun); /** * append data at the end of the list. * * This function is useful for adding elements with a FIFO/queue policy. * * @param l list to operate * @param data pointer to user data to append * * @return 1 for success. < 0 for failure */ int list_append(list_t *restrict l, const void *data); /** * insert data in the head of the list. * * This function is useful for adding elements with a LIFO/Stack policy. * * @param l list to operate * @param data pointer to user data to append * * @return 1 for success. < 0 for failure */ int list_prepend(list_t *restrict l, const void *restrict data); /** * extract the element in the top of the list. * * This function is for using a list with a FIFO/queue policy. * * @param l list to operate * @return reference to user datum, or NULL on errors */ void *list_fetch(list_t *restrict l); /** * retrieve an element at a given position. * * @param l list to operate * @param pos [0,size-1] position index of the element wanted * @return reference to user datum, or NULL on errors */ void *list_get_at(const list_t *restrict l, unsigned int pos); /** * return the maximum element of the list. * * @warning Requires a comparator function to be set for the list. * * Returns the maximum element with respect to the comparator function output. * * @see list_attributes_comparator() * * @param l list to operate * @return the reference to the element, or NULL */ void *list_get_max(const list_t *restrict l); /** * return the minimum element of the list. * * @warning Requires a comparator function to be set for the list. * * Returns the minimum element with respect to the comparator function output. * * @see list_attributes_comparator() * * @param l list to operate * @return the reference to the element, or NULL */ void *list_get_min(const list_t *restrict l); /** * retrieve and remove from list an element at a given position. * * @param l list to operate * @param pos [0,size-1] position index of the element wanted * @return reference to user datum, or NULL on errors */ void *list_extract_at(list_t *restrict l, unsigned int pos); /** * insert an element at a given position. * * @param l list to operate * @param data reference to data to be inserted * @param pos [0,size-1] position index to insert the element at * @return positive value on success. Negative on failure */ int list_insert_at(list_t *restrict l, const void *data, unsigned int pos); /** * expunge the first found given element from the list. * * Inspects the given list looking for the given element; if the element * is found, it is removed. Only the first occurence is removed. * If a comparator function was not set, elements are compared by reference. * Otherwise, the comparator is used to match the element. * * @param l list to operate * @param data reference of the element to search for * @return 0 on success. Negative value on failure * * @see list_attributes_comparator() * @see list_delete_at() */ int list_delete(list_t *restrict l, const void *data); /** * expunge an element at a given position from the list. * * @param l list to operate * @param pos [0,size-1] position index of the element to be deleted * @return 0 on success. Negative value on failure */ int list_delete_at(list_t *restrict l, unsigned int pos); /** * expunge an array of elements from the list, given their position range. * * @param l list to operate * @param posstart [0,size-1] position index of the first element to be deleted * @param posend [posstart,size-1] position of the last element to be deleted * @return the number of elements successfully removed */ int list_delete_range(list_t *restrict l, unsigned int posstart, unsigned int posend); /** * clear all the elements off of the list. * * The element datums will not be freed. * * @see list_delete_range() * @see list_size() * * @param l list to operate * @return the number of elements in the list before cleaning */ int list_clear(list_t *restrict l); /** * inspect the number of elements in the list. * * @param l list to operate * @return number of elements currently held by the list */ unsigned int list_size(const list_t *restrict l); /** * inspect whether the list is empty. * * @param l list to operate * @return 0 iff the list is not empty * * @see list_size() */ int list_empty(const list_t *restrict l); /** * find the position of an element in a list. * * @warning Requires a comparator function to be set for the list. * * Inspects the given list looking for the given element; if the element * is found, its position into the list is returned. * Elements are inspected comparing references if a comparator has not been * set. Otherwise, the comparator is used to find the element. * * @param l list to operate * @param data reference of the element to search for * @return position of element in the list, or <0 if not found * * @see list_attributes_comparator() * @see list_get_at() */ int list_locate(const list_t *restrict l, const void *data); /** * returns an element given an indicator. * * @warning Requires a seeker function to be set for the list. * * Inspect the given list looking with the seeker if an element matches * an indicator. If such element is found, the reference to the element * is returned. * * @param l list to operate * @param indicator indicator data to pass to the seeker along with elements * @return reference to the element accepted by the seeker, or NULL if none found */ void *list_seek(list_t *restrict l, const void *indicator); /** * inspect whether some data is member of the list. * * @warning Requires a comparator function to be set for the list. * * By default, a per-reference comparison is accomplished. That is, * the data is in list if any element of the list points to the same * location of data. * A "semantic" comparison is accomplished, otherwise, if a comparator * function has been set previously, with list_attributes_comparator(); * in which case, the given data reference is believed to be in list iff * comparator_fun(elementdata, userdata) == 0 for any element in the list. * * @param l list to operate * @param data reference to the data to search * @return 0 iff the list does not contain data as an element * * @see list_attributes_comparator() */ int list_contains(const list_t *restrict l, const void *data); /** * concatenate two lists * * Concatenates one list with another, and stores the result into a * user-provided list object, which must be different from both the * lists to concatenate. Attributes from the original lists are not * cloned. * The destination list referred is threated as virgin room: if it * is an existing list containing elements, memory leaks will happen. * It is OK to specify the same list twice as source, for "doubling" * it in the destination. * * @param l1 base list * @param l2 list to append to the base * @param dest reference to the destination list * @return 0 for success, -1 for errors */ int list_concat(const list_t *l1, const list_t *l2, list_t *restrict dest); /** * sort list elements. * * @warning Requires a comparator function to be set for the list. * * Sorts the list in ascending or descending order as specified by the versus * flag. The algorithm chooses autonomously what algorithm is best suited for * sorting the list wrt its current status. * * @param l list to operate * @param versus positive: order small to big; negative: order big to small * @return 0: sorting went OK non-0: errors happened * * @see list_attributes_comparator() */ int list_sort(list_t *restrict l, int versus); /** * start an iteration session. * * This function prepares the list to be iterated. * * @param l list to operate * @return 0 if the list cannot be currently iterated. >0 otherwise * * @see list_iterator_stop() */ int list_iterator_start(list_t *restrict l); /** * return the next element in the iteration session. * * @param l list to operate * @return element datum, or NULL on errors */ void *list_iterator_next(list_t *restrict l); /** * inspect whether more elements are available in the iteration session. * * @param l list to operate * @return 0 iff no more elements are available. */ int list_iterator_hasnext(const list_t *restrict l); /** * end an iteration session. * * @param l list to operate * @return 0 iff the iteration session cannot be stopped */ int list_iterator_stop(list_t *restrict l); /** * return the hash of the current status of the list. * * @param l list to operate * @param hash where the resulting hash is put * * @return 0 for success; <0 for failure */ int list_hash(const list_t *restrict l, list_hash_t *restrict hash); #ifdef SIMCLIST_DUMPRESTORE /** * get meta informations on a list dump on filedescriptor. * * [ advanced function ] * * Extracts the meta information from a SimCList dump located in a file * descriptor. The file descriptor must be open and positioned at the * beginning of the SimCList dump block. * * @param fd file descriptor to get metadata from * @param info reference to a dump metainformation structure to fill * @return 0 for success; <0 for failure * * @see list_dump_filedescriptor() */ int list_dump_getinfo_filedescriptor(int fd, list_dump_info_t *restrict info); /** * get meta informations on a list dump on file. * * [ advanced function ] * * Extracts the meta information from a SimCList dump located in a file. * * @param filename filename of the file to fetch from * @param info reference to a dump metainformation structure to fill * @return 0 for success; <0 for failure * * @see list_dump_filedescriptor() */ int list_dump_getinfo_file(const char *restrict filename, list_dump_info_t *restrict info); /** * dump the list into an open, writable file descriptor. * * This function "dumps" the list to a persistent storage so it can be * preserved across process terminations. * When called, the file descriptor must be open for writing and positioned * where the serialized data must begin. It writes its serialization of the * list in a form which is portable across different architectures. Dump can * be safely performed on stream-only (non seekable) descriptors. The file * descriptor is not closed at the end of the operations. * * To use dump functions, either of these conditions must be satisfied: * -# a metric function has been specified with list_attributes_copy() * -# a serializer function has been specified with list_attributes_serializer() * * If a metric function has been specified, each element of the list is dumped * as-is from memory, copying it from its pointer for its length down to the * file descriptor. This might have impacts on portability of the dump to * different architectures. * * If a serializer function has been specified, its result for each element is * dumped to the file descriptor. * * * @param l list to operate * @param fd file descriptor to write to * @param len location to store the resulting length of the dump (bytes), or NULL * * @return 0 if successful; -1 otherwise * * @see element_serializer() * @see list_attributes_copy() * @see list_attributes_serializer() */ int list_dump_filedescriptor(const list_t *restrict l, int fd, size_t *restrict len); /** * dump the list to a file name. * * This function creates a filename and dumps the current content of the list * to it. If the file exists it is overwritten. The number of bytes written to * the file can be returned in a specified argument. * * @param l list to operate * @param filename filename to write to * @param len location to store the resulting length of the dump (bytes), or NULL * * @return 0 if successful; -1 otherwise * * @see list_attributes_copy() * @see element_serializer() * @see list_attributes_serializer() * @see list_dump_filedescriptor() * @see list_restore_file() * * This function stores a representation of the list */ int list_dump_file(const list_t *restrict l, const char *restrict filename, size_t *restrict len); /** * restore the list from an open, readable file descriptor to memory. * * This function is the "inverse" of list_dump_filedescriptor(). It restores * the list content from a (open, read-ready) file descriptor to memory. An * unserializer might be needed to restore elements from the persistent * representation back into memory-consistent format. List attributes can not * be restored and must be set manually. * * @see list_dump_filedescriptor() * @see list_attributes_serializer() * @see list_attributes_unserializer() * * @param l list to restore to * @param fd file descriptor to read from. * @param len location to store the length of the dump read (bytes), or NULL * @return 0 if successful; -1 otherwise */ int list_restore_filedescriptor(list_t *restrict l, int fd, size_t *restrict len); /** * restore the list from a file name. * * This function restores the content of a list from a file into memory. It is * the inverse of list_dump_file(). * * @see element_unserializer() * @see list_attributes_unserializer() * @see list_dump_file() * @see list_restore_filedescriptor() * * @param l list to restore to * @param filename filename to read data from * @param len location to store the length of the dump read (bytes), or NULL * @return 0 if successful; -1 otherwise */ int list_restore_file(list_t *restrict l, const char *restrict filename, size_t *len); #endif /* ready-made comparators, meters and hash computers */ /* comparator functions */ /** * ready-made comparator for int8_t elements. * @see list_attributes_comparator() */ int list_comparator_int8_t(const void *a, const void *b); /** * ready-made comparator for int16_t elements. * @see list_attributes_comparator() */ int list_comparator_int16_t(const void *a, const void *b); /** * ready-made comparator for int32_t elements. * @see list_attributes_comparator() */ int list_comparator_int32_t(const void *a, const void *b); /** * ready-made comparator for int64_t elements. * @see list_attributes_comparator() */ int list_comparator_int64_t(const void *a, const void *b); /** * ready-made comparator for uint8_t elements. * @see list_attributes_comparator() */ int list_comparator_uint8_t(const void *a, const void *b); /** * ready-made comparator for uint16_t elements. * @see list_attributes_comparator() */ int list_comparator_uint16_t(const void *a, const void *b); /** * ready-made comparator for uint32_t elements. * @see list_attributes_comparator() */ int list_comparator_uint32_t(const void *a, const void *b); /** * ready-made comparator for uint64_t elements. * @see list_attributes_comparator() */ int list_comparator_uint64_t(const void *a, const void *b); /** * ready-made comparator for float elements. * @see list_attributes_comparator() */ int list_comparator_float(const void *a, const void *b); /** * ready-made comparator for double elements. * @see list_attributes_comparator() */ int list_comparator_double(const void *a, const void *b); /** * ready-made comparator for string elements. * @see list_attributes_comparator() */ int list_comparator_string(const void *a, const void *b); /* metric functions */ /** * ready-made metric function for int8_t elements. * @see list_attributes_copy() */ size_t list_meter_int8_t(const void *el); /** * ready-made metric function for int16_t elements. * @see list_attributes_copy() */ size_t list_meter_int16_t(const void *el); /** * ready-made metric function for int32_t elements. * @see list_attributes_copy() */ size_t list_meter_int32_t(const void *el); /** * ready-made metric function for int64_t elements. * @see list_attributes_copy() */ size_t list_meter_int64_t(const void *el); /** * ready-made metric function for uint8_t elements. * @see list_attributes_copy() */ size_t list_meter_uint8_t(const void *el); /** * ready-made metric function for uint16_t elements. * @see list_attributes_copy() */ size_t list_meter_uint16_t(const void *el); /** * ready-made metric function for uint32_t elements. * @see list_attributes_copy() */ size_t list_meter_uint32_t(const void *el); /** * ready-made metric function for uint64_t elements. * @see list_attributes_copy() */ size_t list_meter_uint64_t(const void *el); /** * ready-made metric function for float elements. * @see list_attributes_copy() */ size_t list_meter_float(const void *el); /** * ready-made metric function for double elements. * @see list_attributes_copy() */ size_t list_meter_double(const void *el); /** * ready-made metric function for string elements. * @see list_attributes_copy() */ size_t list_meter_string(const void *el); /* hash functions */ /** * ready-made hash function for int8_t elements. * @see list_attributes_hash_computer() */ list_hash_t list_hashcomputer_int8_t(const void *el); /** * ready-made hash function for int16_t elements. * @see list_attributes_hash_computer() */ list_hash_t list_hashcomputer_int16_t(const void *el); /** * ready-made hash function for int32_t elements. * @see list_attributes_hash_computer() */ list_hash_t list_hashcomputer_int32_t(const void *el); /** * ready-made hash function for int64_t elements. * @see list_attributes_hash_computer() */ list_hash_t list_hashcomputer_int64_t(const void *el); /** * ready-made hash function for uint8_t elements. * @see list_attributes_hash_computer() */ list_hash_t list_hashcomputer_uint8_t(const void *el); /** * ready-made hash function for uint16_t elements. * @see list_attributes_hash_computer() */ list_hash_t list_hashcomputer_uint16_t(const void *el); /** * ready-made hash function for uint32_t elements. * @see list_attributes_hash_computer() */ list_hash_t list_hashcomputer_uint32_t(const void *el); /** * ready-made hash function for uint64_t elements. * @see list_attributes_hash_computer() */ list_hash_t list_hashcomputer_uint64_t(const void *el); /** * ready-made hash function for float elements. * @see list_attributes_hash_computer() */ list_hash_t list_hashcomputer_float(const void *el); /** * ready-made hash function for double elements. * @see list_attributes_hash_computer() */ list_hash_t list_hashcomputer_double(const void *el); /** * ready-made hash function for string elements. * @see list_attributes_hash_computer() */ list_hash_t list_hashcomputer_string(const void *el); #ifdef __cplusplus } #endif #endif