.. _slist_api: Single-linked List ================== Zephyr provides a :c:struct:`sys_slist_t` type for storing simple singly-linked list data (i.e. data where each list element stores a pointer to the next element, but not the previous one). This supports constant-time access to the first (head) and last (tail) elements of the list, insertion before the head and after the tail of the list and constant time removal of the head. Removal of subsequent nodes requires access to the "previous" pointer and thus can only be performed in linear time by searching the list. The :c:struct:`sys_slist_t` struct may be instantiated by the user in any accessible memory. It should be initialized with either :c:func:`sys_slist_init` or by static assignment from SYS_SLIST_STATIC_INIT before use. Its interior fields are opaque and should not be accessed by user code. The end nodes of a list may be retrieved with :c:func:`sys_slist_peek_head` and :c:func:`sys_slist_peek_tail`, which will return NULL if the list is empty, otherwise a pointer to a :c:struct:`sys_snode_t` struct. The :c:struct:`sys_snode_t` struct represents the data to be inserted. In general, it is expected to be allocated/controlled by the user, usually embedded within a struct which is to be added to the list. The container struct pointer may be retrieved from a list node using :c:macro:`SYS_SLIST_CONTAINER`, passing it the struct name of the containing struct and the field name of the node. Internally, the :c:struct:`sys_snode_t` struct contains only a next pointer, which may be accessed with :c:func:`sys_slist_peek_next`. Lists may be modified by adding a single node at the head or tail with :c:func:`sys_slist_prepend` and :c:func:`sys_slist_append`. They may also have a node added to an interior point with :c:func:`sys_slist_insert`, which inserts a new node after an existing one. Similarly :c:func:`sys_slist_remove` will remove a node given a pointer to its predecessor. These operations are all constant time. Convenience routines exist for more complicated modifications to a list. :c:func:`sys_slist_merge_slist` will append an entire list to an existing one. :c:func:`sys_slist_append_list` will append a bounded subset of an existing list in constant time. And :c:func:`sys_slist_find_and_remove` will search a list (in linear time) for a given node and remove it if present. Finally the slist implementation provides a set of "for each" macros that allows for iterating over a list in a natural way without needing to manually traverse the next pointers. :c:macro:`SYS_SLIST_FOR_EACH_NODE` will enumerate every node in a list given a local variable to store the node pointer. :c:macro:`SYS_SLIST_FOR_EACH_NODE_SAFE` behaves similarly, but has a more complicated implementation that requires an extra scratch variable for storage and allows the user to delete the iterated node during the iteration. Each of those macros also exists in a "container" variant (:c:macro:`SYS_SLIST_FOR_EACH_CONTAINER` and :c:macro:`SYS_SLIST_FOR_EACH_CONTAINER_SAFE`) which assigns a local variable of a type that matches the user's container struct and not the node struct, performing the required offsets internally. And :c:macro:`SYS_SLIST_ITERATE_FROM_NODE` exists to allow for enumerating a node and all its successors only, without inspecting the earlier part of the list. Single-linked List Internals ---------------------------- The slist code is designed to be minimal and conventional. Internally, a :c:struct:`sys_slist_t` struct is nothing more than a pair of "head" and "tail" pointer fields. And a :c:struct:`sys_snode_t` stores only a single "next" pointer. .. figure:: slist.png :align: center :alt: slist example :figclass: align-center An slist containing three elements. .. figure:: slist-empty.png :align: center :alt: empty slist example :figclass: align-center An empty slist The specific implementation of the list code, however, is done with an internal "Z_GENLIST" template API which allows for extracting those fields from arbitrary structures and emits an arbitrarily named set of functions. This allows for implementing more complicated single-linked list variants using the same basic primitives. The genlist implementor is responsible for a custom implementation of the primitive operations only: an "init" step for each struct, and a "get" and "set" primitives for each of head, tail and next pointers on their relevant structs. These inline functions are passed as parameters to the genlist macro expansion. Only one such variant, sflist, exists in Zephyr at the moment. Flagged List ------------ The :c:struct:`sys_sflist_t` is implemented using the described genlist template API. With the exception of symbol naming ("sflist" instead of "slist") and the additional API described next, it operates in all ways identically to the slist API. It adds the ability to associate exactly two bits of user defined "flags" with each list node. These can be accessed and modified with :c:func:`sys_sfnode_flags_get` and :c:func:`sys_sfnode_flags_set`. Internally, the flags are stored unioned with the bottom bits of the next pointer and incur no SRAM storage overhead when compared with the simpler slist code. Single-linked List API Reference -------------------------------- .. doxygengroup:: single-linked-list_apis Flagged List API Reference -------------------------------- .. doxygengroup:: flagged-single-linked-list_apis