OpenCores
URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [ada/] [sem_elab.ads] - Blame information for rev 708

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 706 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT COMPILER COMPONENTS                         --
4
--                                                                          --
5
--                             S E M _ E L A B                              --
6
--                                                                          --
7
--                                 S p e c                                  --
8
--                                                                          --
9
--          Copyright (C) 1997-2011, 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.  See the GNU General Public License --
17
-- for  more details.  You should have  received  a copy of the GNU General --
18
-- Public License  distributed with GNAT; see file COPYING3.  If not, go to --
19
-- http://www.gnu.org/licenses for a complete copy of the license.          --
20
--                                                                          --
21
-- GNAT was originally developed  by the GNAT team at  New York University. --
22
-- Extensive contributions were provided by Ada Core Technologies Inc.      --
23
--                                                                          --
24
------------------------------------------------------------------------------
25
 
26
--  This package contains the routines used to deal with issuing warnings
27
--  for cases of calls that may require warnings about possible access
28
--  before elaboration.
29
 
30
with Types; use Types;
31
 
32
package Sem_Elab is
33
 
34
   -----------------------------
35
   -- Description of Approach --
36
   -----------------------------
37
 
38
   --  Every non-static call that is encountered by Sem_Res results in
39
   --  a call to Check_Elab_Call, with N being the call node, and Outer
40
   --  set to its default value of True.
41
 
42
   --  The goal of Check_Elab_Call is to determine whether or not the
43
   --  call in question can generate an access before elaboration
44
   --  error (raising Program_Error) either by directly calling a
45
   --  subprogram whose body has not yet been elaborated, or indirectly,
46
   --  by calling a subprogram whose body has been elaborated, but which
47
   --  contains a call to such a subprogram.
48
 
49
   --  The only calls that we need to look at at the outer level are
50
   --  calls that occur in elaboration code. There are two cases. The
51
   --  call can be at the outer level of elaboration code, or it can
52
   --  be within another unit, e.g. the elaboration code of a subprogram.
53
 
54
   --  In the case of an elaboration call at the outer level, we must
55
   --  trace all calls to outer level routines either within the current
56
   --  unit or to other units that are with'ed. For calls within the
57
   --  current unit, we can determine if the body has been elaborated
58
   --  or not, and if it has not, then a warning is generated.
59
 
60
   --  Note that there are two subcases. If the original call directly
61
   --  calls a subprogram whose body has not been elaborated, then we
62
   --  know that an ABE will take place, and we replace the call by
63
   --  a raise of Program_Error. If the call is indirect, then we don't
64
   --  know that the PE will be raised, since the call might be guarded
65
   --  by a conditional. In this case we set Do_Elab_Check on the call
66
   --  so that a dynamic check is generated, and output a warning.
67
 
68
   --  For calls to a subprogram in a with'ed unit, we require that
69
   --  a pragma Elaborate_All or pragma Elaborate be present, or that
70
   --  the referenced unit have a pragma Preelaborate, pragma Pure, or
71
   --  pragma Elaborate_Body. If none of these conditions is met, then
72
   --  a warning is generated that a pragma Elaborate_All may be needed.
73
 
74
   --  For the case of an elaboration call at some inner level, we are
75
   --  interested in tracing only calls to subprograms at the same level,
76
   --  i.e. those that can be called during elaboration. Any calls to
77
   --  outer level routines cannot cause ABE's as a result of the original
78
   --  call (there might be an outer level call to the subprogram from
79
   --  outside that causes the ABE, but that gets analyzed separately).
80
 
81
   --  Note that we never trace calls to inner level subprograms, since
82
   --  these cannot result in ABE's unless there is an elaboration problem
83
   --  at a lower level, which will be separately detected.
84
 
85
   --  Note on pragma Elaborate. The checking here assumes that a pragma
86
   --  Elaborate on a with'ed unit guarantees that subprograms within the
87
   --  unit can be called without causing an ABE. This is not in fact the
88
   --  case since pragma Elaborate does not guarantee the transitive
89
   --  coverage guaranteed by Elaborate_All. However, we leave this issue
90
   --  up to the binder, which has generates warnings if there are possible
91
   --  problems in the use of pragma Elaborate.
92
 
93
   --------------------------------------
94
   -- Instantiation Elaboration Errors --
95
   --------------------------------------
96
 
97
   --  A special case arises when an instantiation appears in a context
98
   --  that is known to be before the body is elaborated, e.g.
99
 
100
   --       generic package x is ...
101
   --       ...
102
   --       package xx is new x;
103
   --       ...
104
   --       package body x is ...
105
 
106
   --  In this situation it is certain that an elaboration error will
107
   --  occur, and an unconditional raise Program_Error statement is
108
   --  inserted before the instantiation, and a warning generated.
109
 
110
   --  The problem is that in this case we have no place to put the
111
   --  body of the instantiation. We can't put it in the normal place,
112
   --  because it is too early, and will cause errors to occur as a
113
   --  result of referencing entities before they are declared.
114
 
115
   --  Our approach in this case is simply to avoid creating the body
116
   --  of the instantiation in such a case. The instantiation spec is
117
   --  modified to include dummy bodies for all subprograms, so that
118
   --  the resulting code does not contain subprogram specs with no
119
   --  corresponding bodies.
120
 
121
   procedure Check_Elab_Call
122
     (N            : Node_Id;
123
      Outer_Scope  : Entity_Id := Empty;
124
      In_Init_Proc : Boolean   := False);
125
   --  Check a call for possible elaboration problems. The node N is either
126
   --  an N_Function_Call or N_Procedure_Call_Statement node. The Outer_Scope
127
   --  argument indicates whether this is an outer level call from Sem_Res
128
   --  (Outer_Scope set to Empty), or an internal recursive call (Outer_Scope
129
   --  set to entity of outermost call, see body). Flag In_Init_Proc should be
130
   --  set whenever the current context is a type init proc.
131
 
132
   procedure Check_Elab_Calls;
133
   --  Not all the processing for Check_Elab_Call can be done at the time
134
   --  of calls to Check_Elab_Call. This is because for internal calls, we
135
   --  need to wait to complete the check until all generic bodies have been
136
   --  instantiated. The Check_Elab_Calls procedure cleans up these waiting
137
   --  checks. It is called once after the completion of instantiation.
138
 
139
   procedure Check_Elab_Assign (N : Node_Id);
140
   --  N is either the left side of an assignment, or a procedure argument for
141
   --  a mode OUT or IN OUT formal. This procedure checks for a possible case
142
   --  of access to an entity from elaboration code before the entity has been
143
   --  initialized, and issues appropriate warnings.
144
 
145
   procedure Check_Elab_Instantiation
146
     (N           : Node_Id;
147
      Outer_Scope : Entity_Id := Empty);
148
   --  Check an instantiation for possible elaboration problems. N is an
149
   --  instantiation node (N_Package_Instantiation, N_Function_Instantiation,
150
   --  or N_Procedure_Instantiation), and Outer_Scope indicates if this is
151
   --  an outer level call from Sem_Ch12 (Outer_Scope set to Empty), or an
152
   --  internal recursive call (Outer_Scope set to scope of outermost call,
153
   --  see body for further details). The returned value is relevant only
154
   --  for an outer level call, and is set to False if an elaboration error
155
   --  is bound to occur on the instantiation, and True otherwise. This is
156
   --  used by the caller to signal that the body of the instance should
157
   --  not be generated (see detailed description in body).
158
 
159
   procedure Check_Task_Activation (N : Node_Id);
160
   --  at the point at which tasks are activated in a package body, check
161
   --  that the bodies of the tasks are elaborated.
162
 
163
end Sem_Elab;

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.