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1 /*++
2 
3 Copyright (c) 2004, Intel Corporation. All rights reserved.<BR>
4 This program and the accompanying materials
5 are licensed and made available under the terms and conditions of the BSD License
6 which accompanies this distribution.  The full text of the license may be found at
7 http://opensource.org/licenses/bsd-license.php
8 
9 THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
10 WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
11 
12 Module Name:
13 
14   LinkedList.h
15 
16 Abstract:
17 
18   This implementation of a linked list provides data structures for the
19   list itself and for list nodes.  It provides operations for initializing
20   the list, modifying the list, and walking the list.
21 
22 --*/
23 
24 //
25 // Prevent multiple includes in the same source file
26 //
27 #ifndef _LINKED_LIST_H_
28 #define _LINKED_LIST_H_
29 
30 #ifndef _SHELL_LINKED_LIST_H_
31 
32 typedef struct _EFI_LIST_ENTRY {
33   struct _EFI_LIST_ENTRY  *ForwardLink;
34   struct _EFI_LIST_ENTRY  *BackLink;
35 } EFI_LIST_ENTRY;
36 
37 typedef EFI_LIST_ENTRY EFI_LIST;
38 typedef EFI_LIST_ENTRY EFI_LIST_NODE;
39 
40 #define INITIALIZE_LIST_HEAD_VARIABLE(ListHead)  {&ListHead, &ListHead}
41 
42 //
43 //  EFI_FIELD_OFFSET - returns the byte offset to a field within a structure
44 //
45 
46 #define EFI_FIELD_OFFSET(TYPE,Field) ((UINTN)(&(((TYPE *) 0)->Field)))
47 
48 //
49 // A lock structure
50 //
51 
52 typedef struct {
53     EFI_TPL     Tpl;
54     EFI_TPL     OwnerTpl;
55     UINTN       Lock;
56 } FLOCK;
57 
58 VOID
59 InitializeListHead (
60   EFI_LIST_ENTRY       *List
61   )
62 /*++
63 
64 Routine Description:
65 
66   Initialize the head of the List.  The caller must allocate the memory
67   for the EFI_LIST. This function must be called before the other linked
68   list macros can be used.
69 
70 Arguments:
71 
72   List - Pointer to list head to initialize
73 
74 Returns:
75 
76   None.
77 
78 --*/
79 ;
80 
81 BOOLEAN
82 IsListEmpty (
83   EFI_LIST_ENTRY  *List
84   )
85 /*++
86 
87 Routine Description:
88 
89   Return TRUE is the list contains zero nodes. Otherzise return FALSE.
90   The list must have been initialized with InitializeListHead () before using
91   this function.
92 
93 Arguments:
94 
95   List - Pointer to list head to test
96 
97 
98 Returns:
99 
100   Return TRUE is the list contains zero nodes. Otherzise return FALSE.
101 
102 --*/
103 ;
104 
105 VOID
106 RemoveEntryList (
107   EFI_LIST_ENTRY  *Entry
108   )
109 /*++
110 
111 Routine Description:
112 
113   Remove Node from the doubly linked list. It is the caller's responsibility
114   to free any memory used by the entry if needed. The list must have been
115   initialized with InitializeListHead () before using this function.
116 
117 Arguments:
118 
119   Entry - Element to remove from the list.
120 
121 Returns:
122 
123   None
124 
125 --*/
126 ;
127 
128 VOID
129 InsertTailList (
130   EFI_LIST_ENTRY  *ListHead,
131   EFI_LIST_ENTRY  *Entry
132   )
133 /*++
134 
135 Routine Description:
136 
137   Insert a Node into the end of a doubly linked list. The list must have
138   been initialized with InitializeListHead () before using this function.
139 
140 Arguments:
141 
142   ListHead - Head of doubly linked list
143 
144   Entry    - Element to insert at the end of the list.
145 
146 Returns:
147 
148   None
149 
150 --*/
151 ;
152 
153 VOID
154 InsertHeadList (
155   EFI_LIST_ENTRY  *ListHead,
156   EFI_LIST_ENTRY  *Entry
157   )
158 /*++
159 
160 Routine Description:
161 
162   Insert a Node into the start of a doubly linked list. The list must have
163   been initialized with InitializeListHead () before using this function.
164 
165 Arguments:
166 
167   ListHead - Head of doubly linked list
168 
169   Entry    - Element to insert to beginning of list
170 
171 Returns:
172 
173   None
174 
175 --*/
176 ;
177 
178 VOID
179 SwapListEntries (
180   EFI_LIST_ENTRY  *Entry1,
181   EFI_LIST_ENTRY  *Entry2
182   )
183 /*++
184 
185 Routine Description:
186 
187   Swap the location of the two elements of a doubly linked list. Node2
188   is placed in front of Node1. The list must have been initialized with
189   InitializeListHead () before using this function.
190 
191 Arguments:
192 
193   Entry1 - Element in the doubly linked list in front of Node2.
194 
195   Entry2 - Element in the doubly linked list behind Node1.
196 
197 Returns:
198 
199   None
200 
201 --*/
202 ;
203 
204 EFI_LIST_ENTRY *
205 GetFirstNode (
206   EFI_LIST_ENTRY  *List
207   )
208 /*++
209 
210 Routine Description:
211 
212   Return the first node pointed to by the list head.  The list must
213   have been initialized with InitializeListHead () before using this
214   function and must contain data.
215 
216 Arguments:
217 
218   List - The head of the doubly linked list.
219 
220 Returns:
221 
222   Pointer to the first node, if the list contains nodes.  The list will
223   return a null value--that is, the value of List--when the list is empty.
224     See the description of IsNull for more information.
225 
226 
227 --*/
228 ;
229 
230 EFI_LIST_ENTRY *
231 GetNextNode (
232   EFI_LIST_ENTRY  *List,
233   EFI_LIST_ENTRY  *Node
234   )
235 /*++
236 
237 Routine Description:
238 
239   Returns the node following Node in the list. The list must
240   have been initialized with InitializeListHead () before using this
241   function and must contain data.
242 
243 Arguments:
244 
245   List - The head of the list.  MUST NOT be the literal value NULL.
246   Node - The node in the list.  This value MUST NOT be the literal value NULL.
247     See the description of IsNull for more information.
248 
249 Returns:
250 
251   Pointer to the next node, if one exists.  Otherwise, returns a null value,
252   which is actually a pointer to List.
253     See the description of IsNull for more information.
254 
255 --*/
256 ;
257 
258 BOOLEAN
259 IsNull (
260   EFI_LIST_ENTRY  *List,
261   EFI_LIST_ENTRY  *Node
262   )
263 /*++
264 
265 Routine Description:
266 
267   Determines whether the given node is null.  Note that Node is null
268   when its value is equal to the value of List.  It is an error for
269   Node to be the literal value NULL [(VOID*)0x0].
270 
271 Arguments:
272 
273   List - The head of the list.  MUST NOT be the literal value NULL.
274   Node - The node to test.  MUST NOT be the literal value NULL.  See
275     the description above.
276 
277 Returns:
278 
279   Returns true if the node is null.
280 
281 --*/
282 ;
283 
284 BOOLEAN
285 IsNodeAtEnd (
286   EFI_LIST_ENTRY  *List,
287   EFI_LIST_ENTRY  *Node
288   )
289 /*++
290 
291 Routine Description:
292 
293   Determines whether the given node is at the end of the list.  Used
294   to walk the list.  The list must have been initialized with
295   InitializeListHead () before using this function and must contain
296   data.
297 
298 Arguments:
299 
300   List - The head of the list.  MUST NOT be the literal value NULL.
301   Node - The node to test.  MUST NOT be the literal value NULL.
302     See the description of IsNull for more information.
303 
304 Returns:
305 
306   Returns true if the list is the tail.
307 
308 --*/
309 ;
310 
311 #endif
312 #endif
313