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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- N L I S T S --
6 -- --
7 -- S p e c --
8 -- --
9 -- Copyright (C) 1992-2009, Free Software Foundation, Inc. --
10 -- --
11 -- GNAT is free software; you can redistribute it and/or modify it under --
12 -- terms of the GNU General Public License as published by the Free Soft- --
13 -- ware Foundation; either version 3, or (at your option) any later ver- --
14 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
15 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
16 -- or FITNESS FOR A PARTICULAR PURPOSE. --
17 -- --
18 -- As a special exception under Section 7 of GPL version 3, you are granted --
19 -- additional permissions described in the GCC Runtime Library Exception, --
20 -- version 3.1, as published by the Free Software Foundation. --
21 -- --
22 -- You should have received a copy of the GNU General Public License and --
23 -- a copy of the GCC Runtime Library Exception along with this program; --
24 -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
25 -- <http://www.gnu.org/licenses/>. --
26 -- --
27 -- GNAT was originally developed by the GNAT team at New York University. --
28 -- Extensive contributions were provided by Ada Core Technologies Inc. --
29 -- --
30 ------------------------------------------------------------------------------
32 -- This package provides facilities for manipulating lists of nodes (see
33 -- package Atree for format and implementation of tree nodes). The Link field
34 -- of the nodes is used as the forward pointer for these lists. See also
35 -- package Elists which provides another form of lists that are not threaded
36 -- through the nodes (and therefore allow nodes to be on multiple lists).
38 with System;
39 with Types; use Types;
41 package Nlists is
43 -- A node list is a list of nodes in a special format that means that
44 -- nodes can be on at most one such list. For each node list, a list
45 -- header is allocated in the lists table, and a List_Id value references
46 -- this header, which may be used to access the nodes in the list using
47 -- the set of routines that define this interface.
49 -- Note: node lists can contain either nodes or entities (extended nodes)
50 -- or a mixture of nodes and extended nodes.
52 function Last_List_Id return List_Id;
53 pragma Inline (Last_List_Id);
54 -- Returns Id of last allocated list header
56 function Lists_Address return System.Address;
57 pragma Inline (Lists_Address);
58 -- Return address of Lists table (used in Back_End for Gigi call)
60 function Num_Lists return Nat;
61 pragma Inline (Num_Lists);
62 -- Number of currently allocated lists
64 function New_List return List_Id;
65 -- Creates a new empty node list. Typically this is used to initialize
66 -- a field in some other node which points to a node list where the list
67 -- is then subsequently filled in using Append calls.
69 function Empty_List return List_Id renames New_List;
70 -- Used in contexts where an empty list (as opposed to an initially empty
71 -- list to be filled in) is required.
73 function New_List (Node : Node_Id) return List_Id;
74 -- Build a new list initially containing the given node
76 function New_List (Node1, Node2 : Node_Id) return List_Id;
77 -- Build a new list initially containing the two given nodes
79 function New_List (Node1, Node2, Node3 : Node_Id) return List_Id;
80 -- Build a new list initially containing the three given nodes
82 function New_List (Node1, Node2, Node3, Node4 : Node_Id) return List_Id;
83 -- Build a new list initially containing the four given nodes
85 function New_List
86 (Node1 : Node_Id;
87 Node2 : Node_Id;
88 Node3 : Node_Id;
89 Node4 : Node_Id;
90 Node5 : Node_Id) return List_Id;
91 -- Build a new list initially containing the five given nodes
93 function New_List
94 (Node1 : Node_Id;
95 Node2 : Node_Id;
96 Node3 : Node_Id;
97 Node4 : Node_Id;
98 Node5 : Node_Id;
99 Node6 : Node_Id) return List_Id;
100 -- Build a new list initially containing the six given nodes
102 function New_Copy_List (List : List_Id) return List_Id;
103 -- Creates a new list containing copies (made with Atree.New_Copy) of every
104 -- node in the original list. If the argument is No_List, then the returned
105 -- result is No_List. If the argument is an empty list, then the returned
106 -- result is a new empty list.
108 function New_Copy_List_Original (List : List_Id) return List_Id;
109 -- Same as New_Copy_List but copies only nodes coming from source
111 function First (List : List_Id) return Node_Id;
112 pragma Inline (First);
113 -- Obtains the first element of the given node list or, if the node list
114 -- has no items or is equal to No_List, then Empty is returned.
116 function First_Non_Pragma (List : List_Id) return Node_Id;
117 -- Used when dealing with a list that can contain pragmas to skip past
118 -- any initial pragmas and return the first element that is not a pragma.
119 -- If the list is empty, or if it contains only pragmas, then Empty is
120 -- returned. It is an error to call First_Non_Pragma with a Node_Id value
121 -- or No_List (No_List is not considered to be the same as an empty list).
122 -- This function also skips N_Null nodes which can result from rewriting
123 -- unrecognized or incorrect pragmas.
125 function Last (List : List_Id) return Node_Id;
126 pragma Inline (Last);
127 -- Obtains the last element of the given node list or, if the node list
128 -- has no items, then Empty is returned. It is an error to call Last with
129 -- a Node_Id or No_List. (No_List is not considered to be the same as an
130 -- empty node list).
132 function Last_Non_Pragma (List : List_Id) return Node_Id;
133 -- Obtains the last element of a given node list that is not a pragma.
134 -- If the list is empty, or if it contains only pragmas, then Empty is
135 -- returned. It is an error to call Last_Non_Pragma with a Node_Id or
136 -- No_List. (No_List is not considered to be the same as an empty list).
138 function List_Length (List : List_Id) return Nat;
139 pragma Inline (List_Length);
140 -- Returns number of items in the given list. It is an error to call
141 -- this function with No_List (No_List is not considered to be the same
142 -- as an empty list).
144 function Next (Node : Node_Id) return Node_Id;
145 pragma Inline (Next);
146 -- This function returns the next node on a node list, or Empty if Node is
147 -- the last element of the node list. The argument must be a member of a
148 -- node list.
150 procedure Next (Node : in out Node_Id);
151 pragma Inline (Next);
152 -- Equivalent to Node := Next (Node);
154 function Next_Non_Pragma (Node : Node_Id) return Node_Id;
155 -- This function returns the next node on a node list, skipping past any
156 -- pragmas, or Empty if there is no non-pragma entry left. The argument
157 -- must be a member of a node list. This function also skips N_Null nodes
158 -- which can result from rewriting unrecognized or incorrect pragmas.
160 procedure Next_Non_Pragma (Node : in out Node_Id);
161 pragma Inline (Next_Non_Pragma);
162 -- Equivalent to Node := Next_Non_Pragma (Node);
164 function Prev (Node : Node_Id) return Node_Id;
165 pragma Inline (Prev);
166 -- This function returns the previous node on a node list, or Empty
167 -- if Node is the first element of the node list. The argument must be
168 -- a member of a node list. Note: the implementation does maintain back
169 -- pointers, so this function executes quickly in constant time.
171 function Pick (List : List_Id; Index : Pos) return Node_Id;
172 -- Given a list, picks out the Index'th entry (1 = first entry). The
173 -- caller must ensure that Index is in range.
175 procedure Prev (Node : in out Node_Id);
176 pragma Inline (Prev);
177 -- Equivalent to Node := Prev (Node);
179 function Prev_Non_Pragma (Node : Node_Id) return Node_Id;
180 pragma Inline (Prev_Non_Pragma);
181 -- This function returns the previous node on a node list, skipping any
182 -- pragmas. If Node is the first element of the list, or if the only
183 -- elements preceding it are pragmas, then Empty is returned. The
184 -- argument must be a member of a node list. Note: the implementation
185 -- does maintain back pointers, so this function executes quickly in
186 -- constant time.
188 procedure Prev_Non_Pragma (Node : in out Node_Id);
189 pragma Inline (Prev_Non_Pragma);
190 -- Equivalent to Node := Prev_Non_Pragma (Node);
192 function Is_Empty_List (List : List_Id) return Boolean;
193 pragma Inline (Is_Empty_List);
194 -- This function determines if a given list id references a node list that
195 -- contains no items. No_List as an argument returns True.
197 function Is_Non_Empty_List (List : List_Id) return Boolean;
198 pragma Inline (Is_Non_Empty_List);
199 -- This function determines if a given list id references a node list that
200 -- contains at least one item. No_List as an argument returns False.
202 function Is_List_Member (Node : Node_Id) return Boolean;
203 pragma Inline (Is_List_Member);
204 -- This function determines if a given node is a member of a node list.
205 -- It is an error for Node to be Empty, or to be a node list.
207 function List_Containing (Node : Node_Id) return List_Id;
208 pragma Inline (List_Containing);
209 -- This function provides a pointer to the node list containing Node.
210 -- Node must be a member of a node list.
212 procedure Append (Node : Node_Id; To : List_Id);
213 -- Appends Node at the end of node list To. Node must be a non-empty node
214 -- that is not already a member of a node list, and To must be a
215 -- node list. An attempt to append an error node is ignored without
216 -- complaint and the list is unchanged.
218 procedure Append_To (To : List_Id; Node : Node_Id);
219 pragma Inline (Append_To);
220 -- Like Append, but arguments are the other way round
222 procedure Append_List (List : List_Id; To : List_Id);
223 -- Appends node list List to the end of node list To. On return,
224 -- List is reset to be empty.
226 procedure Append_List_To (To : List_Id; List : List_Id);
227 pragma Inline (Append_List_To);
228 -- Like Append_List, but arguments are the other way round
230 procedure Insert_After (After : Node_Id; Node : Node_Id);
231 -- Insert Node, which must be a non-empty node that is not already a
232 -- member of a node list, immediately past node After, which must be a
233 -- node that is currently a member of a node list. An attempt to insert
234 -- an error node is ignored without complaint (and the list is unchanged).
236 procedure Insert_List_After (After : Node_Id; List : List_Id);
237 -- Inserts the entire contents of node list List immediately after node
238 -- After, which must be a member of a node list. On return, the node list
239 -- List is reset to be the empty node list.
241 procedure Insert_Before (Before : Node_Id; Node : Node_Id);
242 -- Insert Node, which must be a non-empty node that is not already a
243 -- member of a node list, immediately before Before, which must be a node
244 -- that is currently a member of a node list. An attempt to insert an
245 -- error node is ignored without complaint (and the list is unchanged).
247 procedure Insert_List_Before (Before : Node_Id; List : List_Id);
248 -- Inserts the entire contents of node list List immediately before node
249 -- Before, which must be a member of a node list. On return, the node list
250 -- List is reset to be the empty node list.
252 procedure Prepend (Node : Node_Id; To : List_Id);
253 -- Prepends Node at the start of node list To. Node must be a non-empty
254 -- node that is not already a member of a node list, and To must be a
255 -- node list. An attempt to prepend an error node is ignored without
256 -- complaint and the list is unchanged.
258 procedure Prepend_To (To : List_Id; Node : Node_Id);
259 pragma Inline (Prepend_To);
260 -- Like Prepend, but arguments are the other way round
262 procedure Remove (Node : Node_Id);
263 -- Removes Node, which must be a node that is a member of a node list,
264 -- from this node list. The contents of Node are not otherwise affected.
266 function Remove_Head (List : List_Id) return Node_Id;
267 -- Removes the head element of a node list, and returns the node (whose
268 -- contents are not otherwise affected) as the result. If the node list
269 -- is empty, then Empty is returned.
271 function Remove_Next (Node : Node_Id) return Node_Id;
272 -- Removes the item immediately following the given node, and returns it
273 -- as the result. If Node is the last element of the list, then Empty is
274 -- returned. Node must be a member of a list. Unlike Remove, Remove_Next
275 -- is fast and does not involve any list traversal.
277 procedure Initialize;
278 -- Called at the start of compilation of each new main source file to
279 -- initialize the allocation of the list table. Note that Initialize
280 -- must not be called if Tree_Read is used.
282 procedure Lock;
283 -- Called to lock tables before back end is called
285 procedure Unlock;
286 -- Unlock tables, in cases where the back end needs to modify them
288 procedure Tree_Read;
289 -- Initializes internal tables from current tree file using the relevant
290 -- Table.Tree_Read routines. Note that Initialize should not be called if
291 -- Tree_Read is used. Tree_Read includes all necessary initialization.
293 procedure Tree_Write;
294 -- Writes out internal tables to current tree file using the relevant
295 -- Table.Tree_Write routines.
297 function Parent (List : List_Id) return Node_Id;
298 pragma Inline (Parent);
299 -- Node lists may have a parent in the same way as a node. The function
300 -- accesses the Parent value, which is either Empty when a list header
301 -- is first created, or the value that has been set by Set_Parent.
303 procedure Set_Parent (List : List_Id; Node : Node_Id);
304 pragma Inline (Set_Parent);
305 -- Sets the parent field of the given list to reference the given node
307 function No (List : List_Id) return Boolean;
308 pragma Inline (No);
309 -- Tests given Id for equality with No_List. This allows notations like
310 -- "if No (Statements)" as opposed to "if Statements = No_List".
312 function Present (List : List_Id) return Boolean;
313 pragma Inline (Present);
314 -- Tests given Id for inequality with No_List. This allows notations like
315 -- "if Present (Statements)" as opposed to "if Statements /= No_List".
317 procedure Allocate_List_Tables (N : Node_Id);
318 -- Called when nodes table is expanded to include node N. This call
319 -- makes sure that list structures internal to Nlists are adjusted
320 -- appropriately to reflect this increase in the size of the nodes table.
322 function Next_Node_Address return System.Address;
323 function Prev_Node_Address return System.Address;
324 -- These functions return the addresses of the Next_Node and Prev_Node
325 -- tables (used in Back_End for Gigi).
327 function p (U : Union_Id) return Node_Id;
328 -- This function is intended for use from the debugger, it determines
329 -- whether U is a Node_Id or List_Id, and calls the appropriate Parent
330 -- function and returns the parent Node in either case. This is shorter
331 -- to type, and avoids the overloading problem of using Parent. It
332 -- should NEVER be used except from the debugger. If p is called with
333 -- other than a node or list id value, it returns 99_999_999.
335 end Nlists;