1 ------------------------------------------------------------------------------
3 -- GNAT COMPILER COMPONENTS --
9 -- Copyright (C) 1992-2013, Free Software Foundation, Inc. --
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. --
21 -- GNAT was originally developed by the GNAT team at New York University. --
22 -- Extensive contributions were provided by Ada Core Technologies Inc. --
24 ------------------------------------------------------------------------------
26 -- This module handles two kinds of inlining activity:
28 -- a) Instantiation of generic bodies. This is done unconditionally, after
29 -- analysis and expansion of the main unit.
31 -- b) Compilation of unit bodies that contain the bodies of inlined sub-
32 -- programs. This is done only if inlining is enabled (-gnatn). Full inlining
33 -- requires that a) an b) be mutually recursive, because each step may
34 -- generate another generic expansion and further inlined calls. For now each
35 -- of them uses a workpile algorithm, but they are called independently from
36 -- Frontend, and thus are not mutually recursive.
42 with Types
; use Types
;
43 with Warnsw
; use Warnsw
;
47 --------------------------------
48 -- Generic Body Instantiation --
49 --------------------------------
51 -- The bodies of generic instantiations are built after semantic analysis
52 -- of the main unit is complete. Generic instantiations are saved in a
53 -- global data structure, and the bodies constructed by means of a separate
54 -- analysis and expansion step.
56 -- See full description in body of Sem_Ch12 for more details
58 type Pending_Body_Info
is record
60 -- Node for instantiation that requires the body
63 -- Declaration for package or subprogram spec for instantiation
65 Expander_Status
: Boolean;
66 -- If the body is instantiated only for semantic checking, expansion
69 Current_Sem_Unit
: Unit_Number_Type
;
70 -- The semantic unit within which the instantiation is found. Must
71 -- be restored when compiling the body, to insure that internal enti-
72 -- ties use the same counter and are unique over spec and body.
74 Scope_Suppress
: Suppress_Record
;
75 Local_Suppress_Stack_Top
: Suppress_Stack_Entry_Ptr
;
76 -- Save suppress information at the point of instantiation. Used to
77 -- properly inherit check status active at this point (see RM 11.5
78 -- (7.2/2), AI95-00224-01):
80 -- "If a checking pragma applies to a generic instantiation, then the
81 -- checking pragma also applies to the instance. If a checking pragma
82 -- applies to a call to a subprogram that has a pragma Inline applied
83 -- to it, then the checking pragma also applies to the inlined
86 -- This means we have to capture this information from the current scope
87 -- at the point of instantiation.
89 Version
: Ada_Version_Type
;
90 -- The body must be compiled with the same language version as the
91 -- spec. The version may be set by a configuration pragma in a separate
92 -- file or in the current file, and may differ from body to body.
94 Version_Pragma
: Node_Id
;
95 -- This is linked with the Version value
97 Warnings
: Warning_Record
;
98 -- Capture values of warning flags
100 SPARK_Mode
: SPARK_Mode_Type
;
101 SPARK_Mode_Pragma
: Node_Id
;
102 -- SPARK_Mode for an instance is the one applicable at the point of
103 -- instantiation. SPARK_Mode_Pragma is the related active pragma.
106 package Pending_Instantiations
is new Table
.Table
(
107 Table_Component_Type
=> Pending_Body_Info
,
108 Table_Index_Type
=> Int
,
109 Table_Low_Bound
=> 0,
110 Table_Initial
=> Alloc
.Pending_Instantiations_Initial
,
111 Table_Increment
=> Alloc
.Pending_Instantiations_Increment
,
112 Table_Name
=> "Pending_Instantiations");
114 -- The following table records subprograms and packages for which
115 -- generation of subprogram descriptors must be delayed.
117 package Pending_Descriptor
is new Table
.Table
(
118 Table_Component_Type
=> Entity_Id
,
119 Table_Index_Type
=> Int
,
120 Table_Low_Bound
=> 0,
121 Table_Initial
=> Alloc
.Pending_Instantiations_Initial
,
122 Table_Increment
=> Alloc
.Pending_Instantiations_Increment
,
123 Table_Name
=> "Pending_Descriptor");
129 procedure Initialize
;
130 -- Initialize internal tables
133 -- Lock internal tables before calling backend
135 procedure Instantiate_Bodies
;
136 -- This procedure is called after semantic analysis is complete, to
137 -- instantiate the bodies of generic instantiations that appear in the
140 procedure Add_Inlined_Body
(E
: Entity_Id
);
141 -- E is an inlined subprogram appearing in a call, either explicitly, or
142 -- a discriminant check for which gigi builds a call. Add E's enclosing
143 -- unit to Inlined_Bodies so that body of E can be subsequently retrieved
146 procedure Analyze_Inlined_Bodies
;
147 -- At end of compilation, analyze the bodies of all units that contain
148 -- inlined subprograms that are actually called.
150 procedure Check_Body_For_Inlining
(N
: Node_Id
; P
: Entity_Id
);
151 -- If front-end inlining is enabled and a package declaration contains
152 -- inlined subprograms, load and compile the package body to collect the
153 -- bodies of these subprograms, so they are available to inline calls.
154 -- N is the compilation unit for the package.
156 procedure Remove_Dead_Instance
(N
: Node_Id
);
157 -- If an instantiation appears in unreachable code, delete the pending