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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- E L I S T S --
6 -- --
7 -- S p e c --
8 -- --
9 -- $Revision: 1.1.16.1 $
10 -- --
11 -- Copyright (C) 1992-1998 Free Software Foundation, Inc. --
12 -- --
13 -- GNAT is free software; you can redistribute it and/or modify it under --
14 -- terms of the GNU General Public License as published by the Free Soft- --
15 -- ware Foundation; either version 2, or (at your option) any later ver- --
16 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
17 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
18 -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
19 -- for more details. You should have received a copy of the GNU General --
20 -- Public License distributed with GNAT; see file COPYING. If not, write --
21 -- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
22 -- MA 02111-1307, USA. --
23 -- --
24 -- As a special exception, if other files instantiate generics from this --
25 -- unit, or you link this unit with other files to produce an executable, --
26 -- this unit does not by itself cause the resulting executable to be --
27 -- covered by the GNU General Public License. This exception does not --
28 -- however invalidate any other reasons why the executable file might be --
29 -- covered by the GNU Public License. --
30 -- --
31 -- GNAT was originally developed by the GNAT team at New York University. --
32 -- Extensive contributions were provided by Ada Core Technologies Inc. --
33 -- --
34 ------------------------------------------------------------------------------
36 -- This package provides facilities for manipulating lists of nodes (see
37 -- package Atree for format and implementation of tree nodes). Separate list
38 -- elements are allocated to represent elements of these lists, so it is
39 -- possible for a given node to be on more than one element list at a time.
40 -- See also package Nlists, which provides another form that is threaded
41 -- through the nodes themselves (using the Link field), which is more time
42 -- and space efficient, but a node can be only one such list.
44 with Types; use Types;
45 with System;
47 package Elists is
49 -- An element list is represented by a header that is allocated in the
50 -- Elist header table. This header contains pointers to the first and
51 -- last elements in the list, or to No_Elmt if the list is empty.
53 -- The elements in the list each contain a pointer to the next element
54 -- and a pointer to the referenced node. Putting a node into an element
55 -- list causes no change at all to the node itself, so a node may be
56 -- included in multiple element lists, and the nodes thus included may
57 -- or may not be elements of node lists (see package Nlists).
59 procedure Initialize;
60 -- Initialize allocation of element list tables. Called at the start of
61 -- compiling each new main source file. Note that Initialize must not be
62 -- called if Tree_Read is used.
64 procedure Lock;
65 -- Lock tables used for element lists before calling backend
67 procedure Tree_Read;
68 -- Initializes internal tables from current tree file using Tree_Read.
69 -- Note that Initialize should not be called if Tree_Read is used.
70 -- Tree_Read includes all necessary initialization.
72 procedure Tree_Write;
73 -- Writes out internal tables to current tree file using Tree_Write
75 function Last_Elist_Id return Elist_Id;
76 -- Returns Id of last allocated element list header
78 function Elists_Address return System.Address;
79 -- Return address of Elists table (used in Back_End for Gigi call)
81 function Num_Elists return Nat;
82 -- Number of currently allocated element lists
84 function Last_Elmt_Id return Elmt_Id;
85 -- Returns Id of last allocated list element
87 function Elmts_Address return System.Address;
88 -- Return address of Elmts table (used in Back_End for Gigi call)
90 function Node (Elmt : Elmt_Id) return Node_Id;
91 pragma Inline (Node);
92 -- Returns the value of a given list element. Returns Empty if Elmt
93 -- is set to No_Elmt.
95 function New_Elmt_List return Elist_Id;
96 -- Creates a new empty element list. Typically this is used to initialize
97 -- a field in some other node which points to an element list where the
98 -- list is then subsequently filled in using Append calls.
100 function First_Elmt (List : Elist_Id) return Elmt_Id;
101 pragma Inline (First_Elmt);
102 -- Obtains the first element of the given element list or, if the
103 -- list has no items, then No_Elmt is returned.
105 function Last_Elmt (List : Elist_Id) return Elmt_Id;
106 pragma Inline (Last_Elmt);
107 -- Obtains the last element of the given element list or, if the
108 -- list has no items, then No_Elmt is returned.
110 function Next_Elmt (Elmt : Elmt_Id) return Elmt_Id;
111 pragma Inline (Next_Elmt);
112 -- This function returns the next element on an element list. The argument
113 -- must be a list element other than No_Elmt. Returns No_Elmt if the given
114 -- element is the last element of the list.
116 procedure Next_Elmt (Elmt : in out Elmt_Id);
117 pragma Inline (Next_Elmt);
118 -- Next_Elmt (Elmt) is equivalent to Elmt := Next_Elmt (Elmt)
120 function Is_Empty_Elmt_List (List : Elist_Id) return Boolean;
121 pragma Inline (Is_Empty_Elmt_List);
122 -- This function determines if a given tree id references an element list
123 -- that contains no items.
125 procedure Append_Elmt (Node : Node_Id; To : Elist_Id);
126 -- Appends Node at the end of To, allocating a new element.
128 procedure Prepend_Elmt (Node : Node_Id; To : Elist_Id);
129 -- Appends Node at the beginning of To, allocating a new element.
131 procedure Insert_Elmt_After (Node : Node_Id; Elmt : Elmt_Id);
132 -- Add a new element (Node) right after the pre-existing element Elmt
133 -- It is invalid to call this subprogram with Elmt = No_Elmt.
135 procedure Replace_Elmt (Elmt : Elmt_Id; New_Node : Node_Id);
136 pragma Inline (Replace_Elmt);
137 -- Causes the given element of the list to refer to New_Node, the node
138 -- which was previously referred to by Elmt is effectively removed from
139 -- the list and replaced by New_Node.
141 procedure Remove_Elmt (List : Elist_Id; Elmt : Elmt_Id);
142 -- Removes Elmt from the given list. The node itself is not affected,
143 -- but the space used by the list element may be (but is not required
144 -- to be) freed for reuse in a subsequent Append_Elmt call.
146 procedure Remove_Last_Elmt (List : Elist_Id);
147 -- Removes the last element of the given list. The node itself is not
148 -- affected, but the space used by the list element may be (but is not
149 -- required to be) freed for reuse in a subsequent Append_Elmt call.
151 function No (List : Elist_Id) return Boolean;
152 pragma Inline (No);
153 -- Tests given Id for equality with No_Elist. This allows notations like
154 -- "if No (Statements)" as opposed to "if Statements = No_Elist".
156 function Present (List : Elist_Id) return Boolean;
157 pragma Inline (Present);
158 -- Tests given Id for inequality with No_Elist. This allows notations like
159 -- "if Present (Statements)" as opposed to "if Statements /= No_Elist".
161 function No (Elmt : Elmt_Id) return Boolean;
162 pragma Inline (No);
163 -- Tests given Id for equality with No_Elmt. This allows notations like
164 -- "if No (Operation)" as opposed to "if Operation = No_Elmt".
166 function Present (Elmt : Elmt_Id) return Boolean;
167 pragma Inline (Present);
168 -- Tests given Id for inequality with No_Elmt. This allows notations like
169 -- "if Present (Operation)" as opposed to "if Operation /= No_Elmt".
171 end Elists;