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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- E X P _ C H 9 --
6 -- --
7 -- S p e c --
8 -- --
9 -- Copyright (C) 1992-2023, 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 ------------------------------------------------------------------------------
26 -- Expand routines for chapter 9 constructs
34 Protected_Mode,
35 Unprotected_Mode);
36 -- This type is used to distinguish the different protection modes of a
37 -- protected subprogram.
40 -- Given a declaration N of an object that is a task, or contains tasks
41 -- (other than allocators to tasks) this routine ensures that an activation
42 -- chain has been declared in the appropriate scope, building the required
43 -- declaration for the chain variable if not. The name of this variable
44 -- is always _Chain and it is accessed by name.
47 -- N is a node representing the name of a task or an access to a task.
48 -- The value returned is a call to the function whose name is the entity
49 -- E (typically a runtime routine entity obtained using RTE) with the
50 -- Task_Id of the associated task as the parameter. The caller is
51 -- responsible for analyzing and resolving the resulting tree.
54 -- Given an access-to-limited class-wide type or an access-to-limited
55 -- interface, ensure that the designated type has a _master and generate
56 -- a renaming of the said master to service the access type.
59 -- For targets supporting tasks, generate:
60 -- _Master : constant Integer := Current_Master.all;
61 -- For targets where tasks or tasking hierarchies are prohibited, generate:
62 -- _Master : constant Master_Id := 3;
65 -- Given the name of an object or a type which is either a task, contains
66 -- tasks or designates tasks, create a _master in the appropriate scope
67 -- which captures the value of Current_Master. Mark the nearest enclosing
68 -- body or block as being a task master.
70 procedure Build_Master_Renaming
73 -- Given an access type Ptr_Typ whose designated type is either a task or
74 -- contains tasks, create a renaming of the form:
75 --
76 -- <Ptr_Typ>M : Master_Id renames _Master;
77 --
78 -- where _master denotes the task master of the enclosing context. Ins_Nod
79 -- is used to provide a specific insertion node for the renaming.
81 function Build_Protected_Sub_Specification
85 -- Build the specification for protected subprogram. This is called when
86 -- expanding a protected type, and also when expanding the declaration for
87 -- an Access_To_Protected_Subprogram type. In the latter case, Prot_Typ is
88 -- empty, and the first parameter of the signature of the protected op is
89 -- of type System.Address.
91 procedure Build_Protected_Subprogram_Call
96 -- The node N is a subprogram or entry call to a protected subprogram. This
97 -- procedure rewrites this call with the appropriate expansion. Name is the
98 -- subprogram, and Rec is the record corresponding to the protected object.
99 -- External is False if the call is to another protected subprogram within
100 -- the same object.
102 procedure Build_Protected_Subprogram_Call_Cleanup
107 -- Append to Stmts the cleanups after a call to a protected subprogram
108 -- whose specification is Op_Spec. Conc_Typ is the concurrent type and Loc
109 -- the sloc for appended statements. The cleanup will either unlock the
110 -- protected object or serve pending entries.
113 -- This procedure is called for constructs that can be task activators,
114 -- i.e. task bodies, subprogram bodies, package bodies and blocks. If the
115 -- construct is a task activator (as indicated by the non-empty setting of
116 -- Activation_Chain_Entity, either in the construct, or, in the case of a
117 -- package body, in its associated package spec), then a call to
118 -- Activate_Tasks with this entity as the single parameter is inserted at
119 -- the start of the statements of the activator.
121 procedure Build_Task_Allocate_Block
125 -- This routine is used in the case of allocators where the designated type
126 -- is a task or contains tasks. In this case, the normal initialize call
127 -- is replaced by:
128 --
129 -- blockname : label;
130 -- blockname : declare
131 -- _Chain : Activation_Chain;
132 --
133 -- procedure _Expunge is
134 -- begin
135 -- Expunge_Unactivated_Tasks (_Chain);
136 -- end;
137 --
138 -- begin
139 -- Init (Args);
140 -- Activate_Tasks (_Chain);
141 -- at end
142 -- _Expunge;
143 -- end;
144 --
145 -- to get the task or tasks created and initialized. The expunge call
146 -- ensures that any tasks that get created but not activated due to an
147 -- exception are properly expunged (it has no effect in the normal case).
148 -- The argument N is the allocator, and Args is the list of arguments for
149 -- the initialization call, constructed by the caller, which uses the
150 -- Master_Id of the access type as the _Master parameter, and _Chain
151 -- (defined above) as the _Chain parameter.
153 procedure Build_Task_Allocate_Block_With_Init_Stmts
157 -- Ada 2005 (AI-287): Similar to previous routine, but used to expand
158 -- allocated aggregates with default initialized components. Init_Stmts
159 -- contains the list of statements required to initialize the allocated
160 -- aggregate. It replaces the call to Init (Args) done by
161 -- Build_Task_Allocate_Block. Also used to expand allocators containing
162 -- build-in-place function calls.
164 function Build_Wrapper_Spec
168 -- Ada 2005 (AI-345): Build the specification of a primitive operation
169 -- associated with a protected or task type. This is required to implement
170 -- dispatching calls through interfaces. Subp_Id is the primitive to be
171 -- wrapped, Obj_Typ is the type of the newly added formal parameter to
172 -- handle object notation, Formals are the original entry formals that
173 -- will be explicitly replicated.
176 -- Given the name of a concurrent object (task or protected object), or
177 -- the name of an access to a concurrent object, this function returns an
178 -- expression referencing the associated Task_Id or Protection object,
179 -- respectively. Note that a special case is when the name is a reference
180 -- to a task type name. This can only happen within a task body, and the
181 -- meaning is to get the Task_Id for the currently executing task.
183 function Convert_Concurrent
186 -- N is an expression of type Typ. If the type is not a concurrent type
187 -- then it is returned unchanged. If it is a task or protected reference,
188 -- Convert_Concurrent creates an unchecked conversion node from this
189 -- expression to the corresponding concurrent record type value. We need
190 -- this in any situation where the concurrent type is used, because the
191 -- actual concurrent object is an object of the corresponding concurrent
192 -- type, and manipulations on the concurrent object actually manipulate the
193 -- corresponding object of the record type.
195 function Entry_Index_Expression
201 -- Returns an expression to compute a task entry index given the name of
202 -- the entry or entry family. For the case of a task entry family, the
203 -- Index parameter contains the expression for the subscript. Ttyp is the
204 -- task type.
207 -- Given a subprogram body, or a block statement, or a task body, this
208 -- procedure makes the necessary transformations required of a task master
209 -- (add Enter_Master call at start, and establish a cleanup routine to make
210 -- sure Complete_Master is called on exit).
213 -- Build Equivalent_Type for an Access_To_Protected_Subprogram.
214 -- Equivalent_Type is a record type with two components: a pointer to the
215 -- protected object, and a pointer to the operation itself.
218 -- Expand declarations required for accept statement. See bodies of both
219 -- Expand_Accept_Declarations and Expand_N_Accept_Statement for full
220 -- details of the nature and use of these declarations, which are inserted
221 -- immediately before the accept node N. The second argument is the entity
222 -- for the corresponding entry.
225 -- Expand the entry barrier into a function. This is called directly
226 -- from Analyze_Entry_Body so that the discriminals and privals of the
227 -- barrier can be attached to the function declaration list, and a new
228 -- set prepared for the entry body procedure, before the entry body
229 -- statement sequence can be expanded. The resulting function is analyzed
230 -- now, within the context of the protected object, to resolve calls to
231 -- other protected functions.
245 -- Expands protected type declarations. This results, among other things,
246 -- in the declaration of a record type for the representation of protected
247 -- objects and (if there are entries) in an entry service procedure. The
248 -- Protection value used by the GNARL to control the object will always be
249 -- the first field of the record, and the entry service procedure spec (if
250 -- it exists) will always immediately follow the record declaration. This
251 -- allows these two nodes to be found from the type, without benefit of
252 -- further attributes, using Corresponding_Record.
262 procedure Expand_Protected_Body_Declarations
265 -- Expand declarations required for a protected body. See bodies of both
266 -- Expand_Protected_Body_Declarations and Expand_N_Protected_Body for full
267 -- details of the nature and use of these declarations. The second argument
268 -- is the entity for the corresponding protected type declaration.
271 -- Return the external version of a protected operation, which locks
272 -- the object before invoking the internal protected subprogram body.
275 -- When a type includes tasks, a master entity is created in the scope, to
276 -- be used by the runtime during activation. In general the master is the
277 -- immediate scope in which the type is declared, but in Ada 2005, in the
278 -- presence of synchronized classwide interfaces, the immediate scope of
279 -- an anonymous access type may be a transient scope, which has no run-time
280 -- presence. In this case, the scope of the master is the innermost scope
281 -- that comes from source.
284 -- Given the declarations list for a protected body, find the
285 -- first protected operation body.
287 procedure Install_Private_Data_Declarations
295 -- This routines generates several types, objects and object renamings used
296 -- in the handling of discriminants and private components of protected and
297 -- task types. It also generates the entry index for entry families. Formal
298 -- Spec_Id denotes an entry, entry family or a subprogram, Conc_Typ is the
299 -- concurrent type where Spec_Id resides, Body_Nod is the corresponding
300 -- body of Spec_Id, Decls are the declarations of the subprogram or entry.
301 -- Flag Barrier denotes whether the context is an entry barrier function.
302 -- Flag Family is used in conjunction with Barrier to denote a barrier for
303 -- an entry family.
304 --
305 -- The generated types, entities and renamings are:
306 --
307 -- * If flag Barrier is set or Spec_Id denotes a protected entry or an
308 -- entry family, generate:
309 --
310 -- type prot_typVP is access prot_typV;
311 -- _object : prot_typVP := prot_typV (_O);
312 --
313 -- where prot_typV is the corresponding record of a protected type and
314 -- _O is a formal parameter representing the concurrent object of either
315 -- the barrier function or the entry (family).
316 --
317 -- * If Conc_Typ is a protected type, create a renaming for the Protection
318 -- field _object:
319 --
320 -- conc_typR : protection_typ renames _object._object;
321 --
322 -- * If Conc_Typ has discriminants, create renamings of the form:
323 --
324 -- discr_nameD : discr_typ renames _object.discr_name;
325 -- or
326 -- discr_nameD : discr_typ renames _task.discr_name;
327 --
328 -- * If Conc_Typ denotes a protected type and has private components,
329 -- generate renamings of the form:
330 --
331 -- comp_name : comp_typ renames _object.comp_name;
332 --
333 -- * Finally, is flag Barrier and Family are set or Spec_Id denotes an
334 -- entry family, generate the entry index constant:
335 --
336 -- subtype Jnn is <Type of Index> range Low .. High;
337 -- J : constant Jnn :=
338 -- Jnn'Val (_E - <Index expression> + Jnn'Pos (Jnn'First));
339 --
340 -- All the above declarations are inserted in the order shown to the front
341 -- of Decls.
344 -- Given the entity of the record type created for a task type, build
345 -- the call to Create_Task
347 function Make_Initialize_Protection
349 -- Given the entity of the record type created for a protected type, build
350 -- a list of statements needed for proper initialization of the object.
353 -- Given a protected operation node (a subprogram or entry body), find the
354 -- following node in the declarations list.
357 -- Replace discriminals in a protected type for use by the next protected
358 -- operation on the type. Each operation needs a new set of discriminals,
359 -- since it needs a unique renaming of the discriminant fields in the
360 -- record used to implement the protected type.