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author | Mattias Andrée <maandree@operamail.com> | 2015-07-12 19:33:43 +0200 |
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committer | Mattias Andrée <maandree@operamail.com> | 2015-07-12 19:33:43 +0200 |
commit | 2f4163f1910490c87320534a15e46f7128d69943 (patch) | |
tree | 84807db19d58bdf63677533b67cb11486994b565 /doc | |
parent | update todo (diff) | |
download | mds-2f4163f1910490c87320534a15e46f7128d69943.tar.gz mds-2f4163f1910490c87320534a15e46f7128d69943.tar.bz2 mds-2f4163f1910490c87320534a15e46f7128d69943.tar.xz |
indices
Signed-off-by: Mattias Andrée <maandree@operamail.com>
Diffstat (limited to 'doc')
-rw-r--r-- | doc/info/mds.texinfo | 80 |
1 files changed, 78 insertions, 2 deletions
diff --git a/doc/info/mds.texinfo b/doc/info/mds.texinfo index c4c89bd..8e403d5 100644 --- a/doc/info/mds.texinfo +++ b/doc/info/mds.texinfo @@ -5474,6 +5474,11 @@ However, @code{hash_table_unmarshal} and @node Client List @subsection Client List +@tpindex @code{client_list_t} +@tpindex @code{struct client_list} +@cpindex Client ID, lists +@cpindex Lists of client ID:s +@fnindex @code{client_list_create} To create a client list, allocate a @code{client_list_t*} or otherwise obtain a @code{client_list_t*}, and call @@ -5495,17 +5500,19 @@ functions for manipulating its content: @table @asis @item @code{client_list_add} [(@code{client_list_t* restrict this, uint64_t client}) @arrow{} @code{int}] +@fnindex @code{client_list_add} This function will add the element @code{client} to the list @code{*this}, and return zero on and only on success. @item @code{client_list_remove} [(@code{client_list_t* restrict this, uint64_t client}) @arrow{} @code{void}] +@fnindex @code{client_list_remove} This function will remove exactly one occurrence, provided that there is at least on occurrence, of the element @code{client} for the list @code{*this}. @end table -The retrieve the number elements stored in +To retrieve the number elements stored in a list, reads its variable @code{size_t size}. The variable @code{uint64_t* clients} is used to retrieve stored elements. @@ -5524,6 +5531,10 @@ void print_elements(client_list_t* this) @node Linked List @subsection Linked List +@tpindex @code{linked_list_t} +@tpindex @code{struct linked_list} +@cpindex Lists, linked +@cpindex Linked lists @code{linked_list_t} is a linear array sentinel doubly linked list. This means that is implemented using arrays rather than node references. More @@ -5550,6 +5561,8 @@ The linked list has a sentinel node that joins boths ends of the list. The index of this node is stored in the variable @code{edge}. +@cpindex Memory management +@fnindex @code{linked_list_pack} Because the list is implemented using arrays, if the number of elements in it shinks considerably, it will not be able to automatically free unused space. Instead @@ -5566,6 +5579,7 @@ that the nodes' indices are continuous. This method has linear time complexity and linear memory complexity. @end table +@fnindex @code{linked_list_create} To create a linked list list, allocate a @code{linked_list_t*} or otherwise obtain a @code{linked_list_t*}, and call @@ -5587,26 +5601,31 @@ items to and from a linked list: @table @asis @item @code{linked_list_insert_after} [(@code{this, size_t value, ssize_t predecessor}) @arrow{} @code{ssize_t}] +@fnindex @code{linked_list_insert_after} Create a new node with the value @code{value} and add it to the list @code{*this} after the node @code{predecessor}. On success, the new node is returned, on failure @code{LINKED_LIST_UNUSED} is returned. @item @code{linked_list_insert_before} [(@code{this, size_t value, ssize_t successor}) @arrow{} @code{ssize_t}] +@fnindex @code{linked_list_insert_before} Create a new node with the value @code{value} and add it to the list @code{*this} before the node @code{successor}. On success, the new node is returned, on failure @code{LINKED_LIST_UNUSED} is returned. @item @code{linked_list_remove_after} [(@code{this, ssize_t predecessor}) @arrow{} @code{ssize_t}] +@fnindex @code{linked_list_remove_after} Remove and return the node in the list @code{*this} directly after the node @code{predecessor}. @item @code{linked_list_remove_before} [(@code{this, ssize_t successor}) @arrow{} @code{ssize_t}] +@fnindex @code{linked_list_remove_before} Remove and return the node in the list @code{*this} directly before the node @code{predecessor}. @item @code{linked_list_remove} [(@code{this, ssize_t node}) @arrow{} @code{void}] +@fnindex @code{linked_list_remove} Remove the node @code{node} from the list @code{*this}. @end table @@ -5630,22 +5649,26 @@ edges of a linked list: @table @asis @item @code{linked_list_insert_beginning} [(@code{linked_list_t* this, size_t value}) @arrow{} @code{ssize_t}] +@fnindex @code{linked_list_insert_beginning} Create a new node with the value @code{value} in insert it to the beginning of the list @code{*this}. On success, the new node is returned, on failure @code{LINKED_LIST_UNUSED} is returned. @item @code{linked_list_insert_end} [(@code{linked_list_t* this, size_t value}) @arrow{} @code{ssize_t}] +@fnindex @code{linked_list_insert_end} Create a new node with the value @code{value} in insert it to the end of the list @code{*this}. On success, the new node is returned, on failure @code{LINKED_LIST_UNUSED} is returned. @item @code{linked_list_remove_beginning} [(@code{linked_list_t* this}) @arrow{} @code{ssize_t}] +@fnindex @code{linked_list_remove_beginning} Remove and return the first node in the list @code{*this}. @item @code{linked_list_remove_end} [(@code{linked_list_t* this}) @arrow{} @code{ssize_t}] +@fnindex @code{linked_list_remove_end} Remove and return the node node in the list @code{*this}. @end table @@ -5657,6 +5680,7 @@ linked list: @table @asis @item @code{foreach_linked_list_node} [(@code{linked_list_t this, ssize_t node})] +@fnindex @code{foreach_linked_list_node} Wrapper for `for` keyword that iterates over each element in the list @code{this}, and store the current node to the variable named by the parameter @@ -5679,6 +5703,7 @@ There is also a function intended for debugging: @table @asis @item @code{linked_list_dump} [(@code{linked_list_t* restrict this, FILE* restrict output}) @arrow{} @code{void}] +@fnindex @code{linked_list_dump} The all internal data of the list @code{*this} into the stream @code{output}. @end table @@ -5688,6 +5713,18 @@ into the stream @code{output}. @node Tables @subsection Tables +@tpindex @code{fd_table_t} +@tpindex @code{struct fd_table} +@cpindex Tables, file descriptor +@cpindex Maps, file descriptor +@cpindex Dictionary, file descriptor +@cpindex File descriptor table +@tpindex @code{hash_table_t} +@tpindex @code{struct hash_table} +@cpindex Tables, hash +@cpindex Maps, hash +@cpindex Dictionary, hash +@cpindex Hash table libmdsserver defines two similar data structures: @code{fd_table_t} and @code{hash_table_t}. Whenever a function exists for both data structures we will @@ -5702,12 +5739,16 @@ modifier. @table @asis @item @code{X_table_create} [(@code{this}) @arrow{} @code{int}] +@fnindex @code{hash_table_create} +@fnindex @code{fd_table_create} Initialises @code{*this} so it can be used as a table. Returns zero on and only on success. These functions are defined as macros. @item @code{X_table_create_tuned} [(@code{this, size_t initial_capacity}) @arrow{} @code{int}] +@fnindex @code{hash_table_create_tuned} +@fnindex @code{fd_table_create_tuned} Initialises @code{*this} so it can be used as a table, and makes its initial capacity at least @code{initial_capacity}. Returns zero on and only @@ -5715,7 +5756,8 @@ on success. @code{hash_table_create_tuned} is defined as a macro. -@item @code{hash_table_create_tuned} [(@code{this, size_t initial_capacity, float load_factor}) @arrow{} @code{int}] +@item @code{hash_table_create_fine_tuned} [(@code{this, size_t initial_capacity, float load_factor}) @arrow{} @code{int}] +@fnindex @code{hash_table_create_fine_tuned} Initialises @code{*this} so it can be used as a table, and makes its initial capacity at least @code{initial_capacity} and its load factor @@ -5723,6 +5765,8 @@ table, and makes its initial capacity at least on success. @item @code{X_table_destroy} [(@code{this, free_func* key_freer, free_func* value_freer}) @arrow{} @code{void}] +@fnindex @code{hash_table_destroy} +@fnindex @code{fd_table_destroy} Release all resources in the table @code{*this}, but do not @code{free} @code{this} itself. Should be called even if construction fails. @@ -5732,10 +5776,14 @@ If @code{values_freer} is not @code{NULL}, this function will be called for each value. @item @code{X_table_contains_value} [(@code{const this, size_t value}) @arrow{} @code{int}] +@fnindex @code{hash_table_contains_value} +@fnindex @code{fd_table_contains_value} Check whether the value @code{value} is stored in the table @code{*this}. @item @code{X_table_contains_key} [(@code{const this, key}) @arrow{} @code{int}] +@fnindex @code{hash_table_contains_key} +@fnindex @code{fd_table_contains_key} Check whether the key @code{code} is used in the table @code{*this}. @@ -5744,16 +5792,21 @@ The data type for the parameter @code{key} is for @code{fd_table}. @item @code{X_table_get} [(@code{const this, key}) @arrow{} @code{size_t}] +@fnindex @code{hash_table_get} +@fnindex @code{fd_table_get} Look up a value by its key @code{key} in the table @code{*this}. Zero will be returned if the key was not used. @item @code{hash_table_get_entry} [(@code{const this, size_t key}) @arrow{} @code{hash_entry_t*}] +@fnindex @code{hash_table_get_entry} Look up an entry by its key @code{key} in the table @code{*this}. @code{NULL} will be returned if the key was not used. @item @code{X_table_put} [(@code{this, key, size_t value}) @arrow{} @code{size_t}] +@fnindex @code{hash_table_put} +@fnindex @code{fd_table_put} Map the value @code{value} to the key @code{key} in the talbe @code{*this}. If a value was already mapped to the key, that value will be returned, @@ -5766,6 +5819,8 @@ The data type for the parameter @code{key} is for @code{fd_table}. @item @code{X_table_remove} [(@code{this, key}) @arrow{} @code{size_t}] +@fnindex @code{hash_table_remove} +@fnindex @code{fd_table_remove} Unmaps the key @code{key} for the table @code{*this}. If a value was mapped to the key, that value will be returned, otherwise zero will be returned. @@ -5775,9 +5830,13 @@ The data type for the parameter @code{key} is for @code{fd_table}. @item @code{X_table_clear} [(@code{this}) @arrow{} @code{void}] +@fnindex @code{hash_table_clear} +@fnindex @code{fd_table_clear} Unmaps all keys in the table @code{*this}. @item @code{X_table_unmarshal} [(@code{this, char* restrict data, remap_func* remapper}) @arrow{} @code{int}] +@fnindex @code{hash_table_unmarshal} +@fnindex @code{fd_table_unmarshal} As described in @ref{Data Structures} but with one additional parameter: @code{remapper}. If this parameter is not @code{NULL} this function is used @@ -5791,6 +5850,7 @@ as wrapper macro for the @code{for} keyword: @table @asis @item @code{foreach_hash_table_entry} [(@code{hash_table_t this, size_t i, hash_entry_t* entry})] +@fnindex @code{foreach_hash_table_entry} Iterates over entry element in the hash table @code{*this}. On each iteration, the entry will be stored to the variable @code{entry} and the @@ -5811,6 +5871,9 @@ Note the the data type for the parameter @code{this} is not a popinter. @end table +@vrindex @code{value_comparator} +@vrindex @code{hash_table_t.value_comparator} +@vrindex @code{fd_table_t.value_comparator} The structures @code{hash_table_t} and @code{fd_table_t} contain the variable @code{value_comparator} which by default is @code{NULL}. If this variable is set to @code{NULL}, @@ -5825,15 +5888,21 @@ arguments. The data type for @code{value_comparator} is @table @asis @item @code{key_comparator} [@code{compare_func*}] +@vrindex @code{ket_comparator} +@vrindex @code{hash_table_t.ket_comparator} Identical to @code{value_comparator}, except it is used for keys rather the values. @item @code{hasher} [@code{hash_func*}] +@vrindex @code{hasher} +@vrindex @code{hash_table_t.hasher} By default, the hash value for key is identical to the key itself. However, if this variable is not @code{NULL}, it will be used to calculate the hash value for keys. @end table +@tpindex @code{hash_entry_t} +@tpindex @code{struct hash_entry} There is a secondary data structure defined for hash tables: @code{hash_entry_t} @{also known as @code{struct hash_entry}@}. It is the data structure used for entries in a hash table. @@ -5856,21 +5925,25 @@ defines four @code{typedef}:s for function signatures: @table @asis @item @code{compare_func} [(@code{size_t a, size_t b}) @arrow{} @code{int}] +@tpindex @code{compare_func} A function that performs a comparison of two objects. Should return non-zero if and only if @code{a} and @code{b} are to be considered equal in the given context. @item @code{hash_func} [(@code{size_t value}) @arrow{} @code{size_t}] +@tpindex @code{hash_func} A function that hashes an object or a value. Should return the hash value for @code{value}. @item @code{free_func} [(@code{size_t obj}) @arrow{} @code{void}] +@tpindex @code{free_func} A function that, to the extent that is appropriate, releases the object @code{obj}'s resources and @code{free}:s it. @item @code{remap_func} [(@code{size_t obj}) @arrow{} @code{size_t}] +@tpindex @code{remap_func} A function that translates a object into a new object. The function should return new object that should replace the object @code{obj}. @@ -5882,9 +5955,12 @@ It defines to useful functions: @table @asis @item @code{string_hash} [(@code{const char* str}) @arrow{} @code{size_t}] +@fnindex @code{string_hash} Calculate and returns the hash value of the string @code{str}. @item @code{string_comparator} [(@code{char* str_a, char* str_b}) @arrow{} @code{int}] +@fnindex @code{string_comparator} +@cpindex String comparison Returns non-zero if either both @code{str_a} and @code{str_b} are @code{NULL} or neither are @code{NULL} but are identical strings by content upto their first NUL characters (or by address). |