Remove not needed __builtin_expect due to malloc predictor.
[official-gcc.git] / gcc / ada / exp_dist.adb
blob546b56f2e17224db244c04859f1469a00d3f42ab
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- E X P_ D I S T --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2018, 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 with Atree; use Atree;
27 with Einfo; use Einfo;
28 with Elists; use Elists;
29 with Exp_Atag; use Exp_Atag;
30 with Exp_Strm; use Exp_Strm;
31 with Exp_Tss; use Exp_Tss;
32 with Exp_Util; use Exp_Util;
33 with Lib; use Lib;
34 with Nlists; use Nlists;
35 with Nmake; use Nmake;
36 with Opt; use Opt;
37 with Rtsfind; use Rtsfind;
38 with Sem; use Sem;
39 with Sem_Aux; use Sem_Aux;
40 with Sem_Cat; use Sem_Cat;
41 with Sem_Ch3; use Sem_Ch3;
42 with Sem_Ch8; use Sem_Ch8;
43 with Sem_Ch12; use Sem_Ch12;
44 with Sem_Dist; use Sem_Dist;
45 with Sem_Eval; use Sem_Eval;
46 with Sem_Util; use Sem_Util;
47 with Sinfo; use Sinfo;
48 with Stand; use Stand;
49 with Stringt; use Stringt;
50 with Tbuild; use Tbuild;
51 with Ttypes; use Ttypes;
52 with Uintp; use Uintp;
54 with GNAT.HTable; use GNAT.HTable;
56 package body Exp_Dist is
58 -- The following model has been used to implement distributed objects:
59 -- given a designated type D and a RACW type R, then a record of the form:
61 -- type Stub is tagged record
62 -- [...declaration similar to s-parint.ads RACW_Stub_Type...]
63 -- end record;
65 -- is built. This type has two properties:
67 -- 1) Since it has the same structure as RACW_Stub_Type, it can
68 -- be converted to and from this type to make it suitable for
69 -- System.Partition_Interface.Get_Unique_Remote_Pointer in order
70 -- to avoid memory leaks when the same remote object arrives on the
71 -- same partition through several paths;
73 -- 2) It also has the same dispatching table as the designated type D,
74 -- and thus can be used as an object designated by a value of type
75 -- R on any partition other than the one on which the object has
76 -- been created, since only dispatching calls will be performed and
77 -- the fields themselves will not be used. We call Derive_Subprograms
78 -- to fake half a derivation to ensure that the subprograms do have
79 -- the same dispatching table.
81 First_RCI_Subprogram_Id : constant := 2;
82 -- RCI subprograms are numbered starting at 2. The RCI receiver for
83 -- an RCI package can thus identify calls received through remote
84 -- access-to-subprogram dereferences by the fact that they have a
85 -- (primitive) subprogram id of 0, and 1 is used for the internal RAS
86 -- information lookup operation. (This is for the Garlic code generation,
87 -- where subprograms are identified by numbers; in the PolyORB version,
88 -- they are identified by name, with a numeric suffix for homonyms.)
90 type Hash_Index is range 0 .. 50;
92 -----------------------
93 -- Local subprograms --
94 -----------------------
96 function Hash (F : Entity_Id) return Hash_Index;
97 -- DSA expansion associates stubs to distributed object types using a hash
98 -- table on entity ids.
100 function Hash (F : Name_Id) return Hash_Index;
101 -- The generation of subprogram identifiers requires an overload counter
102 -- to be associated with each remote subprogram name. These counters are
103 -- maintained in a hash table on name ids.
105 type Subprogram_Identifiers is record
106 Str_Identifier : String_Id;
107 Int_Identifier : Int;
108 end record;
110 package Subprogram_Identifier_Table is
111 new Simple_HTable (Header_Num => Hash_Index,
112 Element => Subprogram_Identifiers,
113 No_Element => (No_String, 0),
114 Key => Entity_Id,
115 Hash => Hash,
116 Equal => "=");
117 -- Mapping between a remote subprogram and the corresponding subprogram
118 -- identifiers.
120 package Overload_Counter_Table is
121 new Simple_HTable (Header_Num => Hash_Index,
122 Element => Int,
123 No_Element => 0,
124 Key => Name_Id,
125 Hash => Hash,
126 Equal => "=");
127 -- Mapping between a subprogram name and an integer that counts the number
128 -- of defining subprogram names with that Name_Id encountered so far in a
129 -- given context (an interface).
131 function Get_Subprogram_Ids (Def : Entity_Id) return Subprogram_Identifiers;
132 function Get_Subprogram_Id (Def : Entity_Id) return String_Id;
133 function Get_Subprogram_Id (Def : Entity_Id) return Int;
134 -- Given a subprogram defined in a RCI package, get its distribution
135 -- subprogram identifiers (the distribution identifiers are a unique
136 -- subprogram number, and the non-qualified subprogram name, in the
137 -- casing used for the subprogram declaration; if the name is overloaded,
138 -- a double underscore and a serial number are appended.
140 -- The integer identifier is used to perform remote calls with GARLIC;
141 -- the string identifier is used in the case of PolyORB.
143 -- Although the PolyORB DSA receiving stubs will make a caseless comparison
144 -- when receiving a call, the calling stubs will create requests with the
145 -- exact casing of the defining unit name of the called subprogram, so as
146 -- to allow calls to subprograms on distributed nodes that do distinguish
147 -- between casings.
149 -- NOTE: Another design would be to allow a representation clause on
150 -- subprogram specs: for Subp'Distribution_Identifier use "fooBar";
152 pragma Warnings (Off, Get_Subprogram_Id);
153 -- One homonym only is unreferenced (specific to the GARLIC version)
155 procedure Add_RAS_Dereference_TSS (N : Node_Id);
156 -- Add a subprogram body for RAS Dereference TSS
158 procedure Add_RAS_Proxy_And_Analyze
159 (Decls : List_Id;
160 Vis_Decl : Node_Id;
161 All_Calls_Remote_E : Entity_Id;
162 Proxy_Object_Addr : out Entity_Id);
163 -- Add the proxy type required, on the receiving (server) side, to handle
164 -- calls to the subprogram declared by Vis_Decl through a remote access
165 -- to subprogram type. All_Calls_Remote_E must be Standard_True if a pragma
166 -- All_Calls_Remote applies, Standard_False otherwise. The new proxy type
167 -- is appended to Decls. Proxy_Object_Addr is a constant of type
168 -- System.Address that designates an instance of the proxy object.
170 function Build_Remote_Subprogram_Proxy_Type
171 (Loc : Source_Ptr;
172 ACR_Expression : Node_Id) return Node_Id;
173 -- Build and return a tagged record type definition for an RCI subprogram
174 -- proxy type. ACR_Expression is used as the initialization value for the
175 -- All_Calls_Remote component.
177 function Build_Get_Unique_RP_Call
178 (Loc : Source_Ptr;
179 Pointer : Entity_Id;
180 Stub_Type : Entity_Id) return List_Id;
181 -- Build a call to Get_Unique_Remote_Pointer (Pointer), followed by a
182 -- tag fixup (Get_Unique_Remote_Pointer may have changed Pointer'Tag to
183 -- RACW_Stub_Type'Tag, while the desired tag is that of Stub_Type).
185 function Build_Stub_Tag
186 (Loc : Source_Ptr;
187 RACW_Type : Entity_Id) return Node_Id;
188 -- Return an expression denoting the tag of the stub type associated with
189 -- RACW_Type.
191 function Build_Subprogram_Calling_Stubs
192 (Vis_Decl : Node_Id;
193 Subp_Id : Node_Id;
194 Asynchronous : Boolean;
195 Dynamically_Asynchronous : Boolean := False;
196 Stub_Type : Entity_Id := Empty;
197 RACW_Type : Entity_Id := Empty;
198 Locator : Entity_Id := Empty;
199 New_Name : Name_Id := No_Name) return Node_Id;
200 -- Build the calling stub for a given subprogram with the subprogram ID
201 -- being Subp_Id. If Stub_Type is given, then the "addr" field of
202 -- parameters of this type will be marshalled instead of the object itself.
203 -- It will then be converted into Stub_Type before performing the real
204 -- call. If Dynamically_Asynchronous is True, then it will be computed at
205 -- run time whether the call is asynchronous or not. Otherwise, the value
206 -- of the formal Asynchronous will be used. If Locator is not Empty, it
207 -- will be used instead of RCI_Cache. If New_Name is given, then it will
208 -- be used instead of the original name.
210 function Build_RPC_Receiver_Specification
211 (RPC_Receiver : Entity_Id;
212 Request_Parameter : Entity_Id) return Node_Id;
213 -- Make a subprogram specification for an RPC receiver, with the given
214 -- defining unit name and formal parameter.
216 function Build_Ordered_Parameters_List (Spec : Node_Id) return List_Id;
217 -- Return an ordered parameter list: unconstrained parameters are put
218 -- at the beginning of the list and constrained ones are put after. If
219 -- there are no parameters, an empty list is returned. Special case:
220 -- the controlling formal of the equivalent RACW operation for a RAS
221 -- type is always left in first position.
223 function Transmit_As_Unconstrained (Typ : Entity_Id) return Boolean;
224 -- True when Typ is an unconstrained type, or a null-excluding access type.
225 -- In either case, this means stubs cannot contain a default-initialized
226 -- object declaration of such type.
228 procedure Add_Calling_Stubs_To_Declarations (Pkg_Spec : Node_Id);
229 -- Add calling stubs to the declarative part
231 function Could_Be_Asynchronous (Spec : Node_Id) return Boolean;
232 -- Return True if nothing prevents the program whose specification is
233 -- given to be asynchronous (i.e. no [IN] OUT parameters).
235 function Pack_Entity_Into_Stream_Access
236 (Loc : Source_Ptr;
237 Stream : Node_Id;
238 Object : Entity_Id;
239 Etyp : Entity_Id := Empty) return Node_Id;
240 -- Pack Object (of type Etyp) into Stream. If Etyp is not given,
241 -- then Etype (Object) will be used if present. If the type is
242 -- constrained, then 'Write will be used to output the object,
243 -- If the type is unconstrained, 'Output will be used.
245 function Pack_Node_Into_Stream
246 (Loc : Source_Ptr;
247 Stream : Entity_Id;
248 Object : Node_Id;
249 Etyp : Entity_Id) return Node_Id;
250 -- Similar to above, with an arbitrary node instead of an entity
252 function Pack_Node_Into_Stream_Access
253 (Loc : Source_Ptr;
254 Stream : Node_Id;
255 Object : Node_Id;
256 Etyp : Entity_Id) return Node_Id;
257 -- Similar to above, with Stream instead of Stream'Access
259 function Make_Selected_Component
260 (Loc : Source_Ptr;
261 Prefix : Entity_Id;
262 Selector_Name : Name_Id) return Node_Id;
263 -- Return a selected_component whose prefix denotes the given entity, and
264 -- with the given Selector_Name.
266 function Scope_Of_Spec (Spec : Node_Id) return Entity_Id;
267 -- Return the scope represented by a given spec
269 procedure Set_Renaming_TSS
270 (Typ : Entity_Id;
271 Nam : Entity_Id;
272 TSS_Nam : TSS_Name_Type);
273 -- Create a renaming declaration of subprogram Nam, and register it as a
274 -- TSS for Typ with name TSS_Nam.
276 function Need_Extra_Constrained (Parameter : Node_Id) return Boolean;
277 -- Return True if the current parameter needs an extra formal to reflect
278 -- its constrained status.
280 function Is_RACW_Controlling_Formal
281 (Parameter : Node_Id;
282 Stub_Type : Entity_Id) return Boolean;
283 -- Return True if the current parameter is a controlling formal argument
284 -- of type Stub_Type or access to Stub_Type.
286 procedure Declare_Create_NVList
287 (Loc : Source_Ptr;
288 NVList : Entity_Id;
289 Decls : List_Id;
290 Stmts : List_Id);
291 -- Append the declaration of NVList to Decls, and its
292 -- initialization to Stmts.
294 function Add_Parameter_To_NVList
295 (Loc : Source_Ptr;
296 NVList : Entity_Id;
297 Parameter : Entity_Id;
298 Constrained : Boolean;
299 RACW_Ctrl : Boolean := False;
300 Any : Entity_Id) return Node_Id;
301 -- Return a call to Add_Item to add the Any corresponding to the designated
302 -- formal Parameter (with the indicated Constrained status) to NVList.
303 -- RACW_Ctrl must be set to True for controlling formals of distributed
304 -- object primitive operations.
306 --------------------
307 -- Stub_Structure --
308 --------------------
310 -- This record describes various tree fragments associated with the
311 -- generation of RACW calling stubs. One such record exists for every
312 -- distributed object type, i.e. each tagged type that is the designated
313 -- type of one or more RACW type.
315 type Stub_Structure is record
316 Stub_Type : Entity_Id;
317 -- Stub type: this type has the same primitive operations as the
318 -- designated types, but the provided bodies for these operations
319 -- a remote call to an actual target object potentially located on
320 -- another partition; each value of the stub type encapsulates a
321 -- reference to a remote object.
323 Stub_Type_Access : Entity_Id;
324 -- A local access type designating the stub type (this is not an RACW
325 -- type).
327 RPC_Receiver_Decl : Node_Id;
328 -- Declaration for the RPC receiver entity associated with the
329 -- designated type. As an exception, in the case of GARLIC, for an RACW
330 -- that implements a RAS, no object RPC receiver is generated. Instead,
331 -- RPC_Receiver_Decl is the declaration after which the RPC receiver
332 -- would have been inserted.
334 Body_Decls : List_Id;
335 -- List of subprogram bodies to be included in generated code: bodies
336 -- for the RACW's stream attributes, and for the primitive operations
337 -- of the stub type.
339 RACW_Type : Entity_Id;
340 -- One of the RACW types designating this distributed object type
341 -- (they are all interchangeable; we use any one of them in order to
342 -- avoid having to create various anonymous access types).
344 end record;
346 Empty_Stub_Structure : constant Stub_Structure :=
347 (Empty, Empty, Empty, No_List, Empty);
349 package Stubs_Table is
350 new Simple_HTable (Header_Num => Hash_Index,
351 Element => Stub_Structure,
352 No_Element => Empty_Stub_Structure,
353 Key => Entity_Id,
354 Hash => Hash,
355 Equal => "=");
356 -- Mapping between a RACW designated type and its stub type
358 package Asynchronous_Flags_Table is
359 new Simple_HTable (Header_Num => Hash_Index,
360 Element => Entity_Id,
361 No_Element => Empty,
362 Key => Entity_Id,
363 Hash => Hash,
364 Equal => "=");
365 -- Mapping between a RACW type and a constant having the value True
366 -- if the RACW is asynchronous and False otherwise.
368 package RCI_Locator_Table is
369 new Simple_HTable (Header_Num => Hash_Index,
370 Element => Entity_Id,
371 No_Element => Empty,
372 Key => Entity_Id,
373 Hash => Hash,
374 Equal => "=");
375 -- Mapping between a RCI package on which All_Calls_Remote applies and
376 -- the generic instantiation of RCI_Locator for this package.
378 package RCI_Calling_Stubs_Table is
379 new Simple_HTable (Header_Num => Hash_Index,
380 Element => Entity_Id,
381 No_Element => Empty,
382 Key => Entity_Id,
383 Hash => Hash,
384 Equal => "=");
385 -- Mapping between a RCI subprogram and the corresponding calling stubs
387 function Get_Stub_Elements (RACW_Type : Entity_Id) return Stub_Structure;
388 -- Return the stub information associated with the given RACW type
390 procedure Add_Stub_Type
391 (Designated_Type : Entity_Id;
392 RACW_Type : Entity_Id;
393 Decls : List_Id;
394 Stub_Type : out Entity_Id;
395 Stub_Type_Access : out Entity_Id;
396 RPC_Receiver_Decl : out Node_Id;
397 Body_Decls : out List_Id;
398 Existing : out Boolean);
399 -- Add the declaration of the stub type, the access to stub type and the
400 -- object RPC receiver at the end of Decls. If these already exist,
401 -- then nothing is added in the tree but the right values are returned
402 -- anyhow and Existing is set to True.
404 function Get_And_Reset_RACW_Bodies (RACW_Type : Entity_Id) return List_Id;
405 -- Retrieve the Body_Decls list associated to RACW_Type in the stub
406 -- structure table, reset it to No_List, and return the previous value.
408 procedure Add_RACW_Asynchronous_Flag
409 (Declarations : List_Id;
410 RACW_Type : Entity_Id);
411 -- Declare a boolean constant associated with RACW_Type whose value
412 -- indicates at run time whether a pragma Asynchronous applies to it.
414 procedure Assign_Subprogram_Identifier
415 (Def : Entity_Id;
416 Spn : Int;
417 Id : out String_Id);
418 -- Determine the distribution subprogram identifier to
419 -- be used for remote subprogram Def, return it in Id and
420 -- store it in a hash table for later retrieval by
421 -- Get_Subprogram_Id. Spn is the subprogram number.
423 function RCI_Package_Locator
424 (Loc : Source_Ptr;
425 Package_Spec : Node_Id) return Node_Id;
426 -- Instantiate the generic package RCI_Locator in order to locate the
427 -- RCI package whose spec is given as argument.
429 function Make_Tag_Check (Loc : Source_Ptr; N : Node_Id) return Node_Id;
430 -- Surround a node N by a tag check, as in:
431 -- begin
432 -- <N>;
433 -- exception
434 -- when E : Ada.Tags.Tag_Error =>
435 -- Raise_Exception (Program_Error'Identity,
436 -- Exception_Message (E));
437 -- end;
439 function Input_With_Tag_Check
440 (Loc : Source_Ptr;
441 Var_Type : Entity_Id;
442 Stream : Node_Id) return Node_Id;
443 -- Return a function with the following form:
444 -- function R return Var_Type is
445 -- begin
446 -- return Var_Type'Input (S);
447 -- exception
448 -- when E : Ada.Tags.Tag_Error =>
449 -- Raise_Exception (Program_Error'Identity,
450 -- Exception_Message (E));
451 -- end R;
453 procedure Build_Actual_Object_Declaration
454 (Object : Entity_Id;
455 Etyp : Entity_Id;
456 Variable : Boolean;
457 Expr : Node_Id;
458 Decls : List_Id);
459 -- Build the declaration of an object with the given defining identifier,
460 -- initialized with Expr if provided, to serve as actual parameter in a
461 -- server stub. If Variable is true, the declared object will be a variable
462 -- (case of an out or in out formal), else it will be a constant. Object's
463 -- Ekind is set accordingly. The declaration, as well as any other
464 -- declarations it requires, are appended to Decls.
466 --------------------------------------------
467 -- Hooks for PCS-specific code generation --
468 --------------------------------------------
470 -- Part of the code generation circuitry for distribution needs to be
471 -- tailored for each implementation of the PCS. For each routine that
472 -- needs to be specialized, a Specific_<routine> wrapper is created,
473 -- which calls the corresponding <routine> in package
474 -- <pcs_implementation>_Support.
476 procedure Specific_Add_RACW_Features
477 (RACW_Type : Entity_Id;
478 Desig : Entity_Id;
479 Stub_Type : Entity_Id;
480 Stub_Type_Access : Entity_Id;
481 RPC_Receiver_Decl : Node_Id;
482 Body_Decls : List_Id);
483 -- Add declaration for TSSs for a given RACW type. The declarations are
484 -- added just after the declaration of the RACW type itself. If the RACW
485 -- appears in the main unit, Body_Decls is a list of declarations to which
486 -- the bodies are appended. Else Body_Decls is No_List.
487 -- PCS-specific ancillary subprogram for Add_RACW_Features.
489 procedure Specific_Add_RAST_Features
490 (Vis_Decl : Node_Id;
491 RAS_Type : Entity_Id);
492 -- Add declaration for TSSs for a given RAS type. PCS-specific ancillary
493 -- subprogram for Add_RAST_Features.
495 -- An RPC_Target record is used during construction of calling stubs
496 -- to pass PCS-specific tree fragments corresponding to the information
497 -- necessary to locate the target of a remote subprogram call.
499 type RPC_Target (PCS_Kind : PCS_Names) is record
500 case PCS_Kind is
501 when Name_PolyORB_DSA =>
502 Object : Node_Id;
503 -- An expression whose value is a PolyORB reference to the target
504 -- object.
506 when others =>
507 Partition : Entity_Id;
508 -- A variable containing the Partition_ID of the target partition
510 RPC_Receiver : Node_Id;
511 -- An expression whose value is the address of the target RPC
512 -- receiver.
513 end case;
514 end record;
516 procedure Specific_Build_General_Calling_Stubs
517 (Decls : List_Id;
518 Statements : List_Id;
519 Target : RPC_Target;
520 Subprogram_Id : Node_Id;
521 Asynchronous : Node_Id := Empty;
522 Is_Known_Asynchronous : Boolean := False;
523 Is_Known_Non_Asynchronous : Boolean := False;
524 Is_Function : Boolean;
525 Spec : Node_Id;
526 Stub_Type : Entity_Id := Empty;
527 RACW_Type : Entity_Id := Empty;
528 Nod : Node_Id);
529 -- Build calling stubs for general purpose. The parameters are:
530 -- Decls : A place to put declarations
531 -- Statements : A place to put statements
532 -- Target : PCS-specific target information (see details in
533 -- RPC_Target declaration).
534 -- Subprogram_Id : A node containing the subprogram ID
535 -- Asynchronous : True if an APC must be made instead of an RPC.
536 -- The value needs not be supplied if one of the
537 -- Is_Known_... is True.
538 -- Is_Known_Async... : True if we know that this is asynchronous
539 -- Is_Known_Non_A... : True if we know that this is not asynchronous
540 -- Spec : Node with a Parameter_Specifications and a
541 -- Result_Definition if applicable
542 -- Stub_Type : For case of RACW stubs, parameters of type access
543 -- to Stub_Type will be marshalled using the address
544 -- address of the object (the addr field) rather
545 -- than using the 'Write on the stub itself
546 -- Nod : Used to provide sloc for generated code
548 function Specific_Build_Stub_Target
549 (Loc : Source_Ptr;
550 Decls : List_Id;
551 RCI_Locator : Entity_Id;
552 Controlling_Parameter : Entity_Id) return RPC_Target;
553 -- Build call target information nodes for use within calling stubs. In the
554 -- RCI case, RCI_Locator is the entity for the instance of RCI_Locator. If
555 -- for an RACW, Controlling_Parameter is the entity for the controlling
556 -- formal parameter used to determine the location of the target of the
557 -- call. Decls provides a location where variable declarations can be
558 -- appended to construct the necessary values.
560 function Specific_RPC_Receiver_Decl
561 (RACW_Type : Entity_Id) return Node_Id;
562 -- Build the RPC receiver, for RACW, if applicable, else return Empty
564 procedure Specific_Build_RPC_Receiver_Body
565 (RPC_Receiver : Entity_Id;
566 Request : out Entity_Id;
567 Subp_Id : out Entity_Id;
568 Subp_Index : out Entity_Id;
569 Stmts : out List_Id;
570 Decl : out Node_Id);
571 -- Make a subprogram body for an RPC receiver, with the given
572 -- defining unit name. On return:
573 -- - Subp_Id is the subprogram identifier from the PCS.
574 -- - Subp_Index is the index in the list of subprograms
575 -- used for dispatching (a variable of type Subprogram_Id).
576 -- - Stmts is the place where the request dispatching
577 -- statements can occur,
578 -- - Decl is the subprogram body declaration.
580 function Specific_Build_Subprogram_Receiving_Stubs
581 (Vis_Decl : Node_Id;
582 Asynchronous : Boolean;
583 Dynamically_Asynchronous : Boolean := False;
584 Stub_Type : Entity_Id := Empty;
585 RACW_Type : Entity_Id := Empty;
586 Parent_Primitive : Entity_Id := Empty) return Node_Id;
587 -- Build the receiving stub for a given subprogram. The subprogram
588 -- declaration is also built by this procedure, and the value returned
589 -- is a N_Subprogram_Body. If a parameter of type access to Stub_Type is
590 -- found in the specification, then its address is read from the stream
591 -- instead of the object itself and converted into an access to
592 -- class-wide type before doing the real call using any of the RACW type
593 -- pointing on the designated type.
595 procedure Specific_Add_Obj_RPC_Receiver_Completion
596 (Loc : Source_Ptr;
597 Decls : List_Id;
598 RPC_Receiver : Entity_Id;
599 Stub_Elements : Stub_Structure);
600 -- Add the necessary code to Decls after the completion of generation
601 -- of the RACW RPC receiver described by Stub_Elements.
603 procedure Specific_Add_Receiving_Stubs_To_Declarations
604 (Pkg_Spec : Node_Id;
605 Decls : List_Id;
606 Stmts : List_Id);
607 -- Add receiving stubs to the declarative part of an RCI unit
609 --------------------
610 -- GARLIC_Support --
611 --------------------
613 package GARLIC_Support is
615 -- Support for generating DSA code that uses the GARLIC PCS
617 -- The subprograms below provide the GARLIC versions of the
618 -- corresponding Specific_<subprogram> routine declared above.
620 procedure Add_RACW_Features
621 (RACW_Type : Entity_Id;
622 Stub_Type : Entity_Id;
623 Stub_Type_Access : Entity_Id;
624 RPC_Receiver_Decl : Node_Id;
625 Body_Decls : List_Id);
627 procedure Add_RAST_Features
628 (Vis_Decl : Node_Id;
629 RAS_Type : Entity_Id);
631 procedure Build_General_Calling_Stubs
632 (Decls : List_Id;
633 Statements : List_Id;
634 Target_Partition : Entity_Id; -- From RPC_Target
635 Target_RPC_Receiver : Node_Id; -- From RPC_Target
636 Subprogram_Id : Node_Id;
637 Asynchronous : Node_Id := Empty;
638 Is_Known_Asynchronous : Boolean := False;
639 Is_Known_Non_Asynchronous : Boolean := False;
640 Is_Function : Boolean;
641 Spec : Node_Id;
642 Stub_Type : Entity_Id := Empty;
643 RACW_Type : Entity_Id := Empty;
644 Nod : Node_Id);
646 function Build_Stub_Target
647 (Loc : Source_Ptr;
648 Decls : List_Id;
649 RCI_Locator : Entity_Id;
650 Controlling_Parameter : Entity_Id) return RPC_Target;
652 function RPC_Receiver_Decl (RACW_Type : Entity_Id) return Node_Id;
654 function Build_Subprogram_Receiving_Stubs
655 (Vis_Decl : Node_Id;
656 Asynchronous : Boolean;
657 Dynamically_Asynchronous : Boolean := False;
658 Stub_Type : Entity_Id := Empty;
659 RACW_Type : Entity_Id := Empty;
660 Parent_Primitive : Entity_Id := Empty) return Node_Id;
662 procedure Add_Obj_RPC_Receiver_Completion
663 (Loc : Source_Ptr;
664 Decls : List_Id;
665 RPC_Receiver : Entity_Id;
666 Stub_Elements : Stub_Structure);
668 procedure Add_Receiving_Stubs_To_Declarations
669 (Pkg_Spec : Node_Id;
670 Decls : List_Id;
671 Stmts : List_Id);
673 procedure Build_RPC_Receiver_Body
674 (RPC_Receiver : Entity_Id;
675 Request : out Entity_Id;
676 Subp_Id : out Entity_Id;
677 Subp_Index : out Entity_Id;
678 Stmts : out List_Id;
679 Decl : out Node_Id);
681 end GARLIC_Support;
683 ---------------------
684 -- PolyORB_Support --
685 ---------------------
687 package PolyORB_Support is
689 -- Support for generating DSA code that uses the PolyORB PCS
691 -- The subprograms below provide the PolyORB versions of the
692 -- corresponding Specific_<subprogram> routine declared above.
694 procedure Add_RACW_Features
695 (RACW_Type : Entity_Id;
696 Desig : Entity_Id;
697 Stub_Type : Entity_Id;
698 Stub_Type_Access : Entity_Id;
699 RPC_Receiver_Decl : Node_Id;
700 Body_Decls : List_Id);
702 procedure Add_RAST_Features
703 (Vis_Decl : Node_Id;
704 RAS_Type : Entity_Id);
706 procedure Build_General_Calling_Stubs
707 (Decls : List_Id;
708 Statements : List_Id;
709 Target_Object : Node_Id; -- From RPC_Target
710 Subprogram_Id : Node_Id;
711 Asynchronous : Node_Id := Empty;
712 Is_Known_Asynchronous : Boolean := False;
713 Is_Known_Non_Asynchronous : Boolean := False;
714 Is_Function : Boolean;
715 Spec : Node_Id;
716 Stub_Type : Entity_Id := Empty;
717 RACW_Type : Entity_Id := Empty;
718 Nod : Node_Id);
720 function Build_Stub_Target
721 (Loc : Source_Ptr;
722 Decls : List_Id;
723 RCI_Locator : Entity_Id;
724 Controlling_Parameter : Entity_Id) return RPC_Target;
726 function RPC_Receiver_Decl (RACW_Type : Entity_Id) return Node_Id;
728 function Build_Subprogram_Receiving_Stubs
729 (Vis_Decl : Node_Id;
730 Asynchronous : Boolean;
731 Dynamically_Asynchronous : Boolean := False;
732 Stub_Type : Entity_Id := Empty;
733 RACW_Type : Entity_Id := Empty;
734 Parent_Primitive : Entity_Id := Empty) return Node_Id;
736 procedure Add_Obj_RPC_Receiver_Completion
737 (Loc : Source_Ptr;
738 Decls : List_Id;
739 RPC_Receiver : Entity_Id;
740 Stub_Elements : Stub_Structure);
742 procedure Add_Receiving_Stubs_To_Declarations
743 (Pkg_Spec : Node_Id;
744 Decls : List_Id;
745 Stmts : List_Id);
747 procedure Build_RPC_Receiver_Body
748 (RPC_Receiver : Entity_Id;
749 Request : out Entity_Id;
750 Subp_Id : out Entity_Id;
751 Subp_Index : out Entity_Id;
752 Stmts : out List_Id;
753 Decl : out Node_Id);
755 procedure Reserve_NamingContext_Methods;
756 -- Mark the method names for interface NamingContext as already used in
757 -- the overload table, so no clashes occur with user code (with the
758 -- PolyORB PCS, RCIs Implement The NamingContext interface to allow
759 -- their methods to be accessed as objects, for the implementation of
760 -- remote access-to-subprogram types).
762 -------------
763 -- Helpers --
764 -------------
766 package Helpers is
768 -- Routines to build distribution helper subprograms for user-defined
769 -- types. For implementation of the Distributed systems annex (DSA)
770 -- over the PolyORB generic middleware components, it is necessary to
771 -- generate several supporting subprograms for each application data
772 -- type used in inter-partition communication. These subprograms are:
774 -- A Typecode function returning a high-level description of the
775 -- type's structure;
777 -- Two conversion functions allowing conversion of values of the
778 -- type from and to the generic data containers used by PolyORB.
779 -- These generic containers are called 'Any' type values after the
780 -- CORBA terminology, and hence the conversion subprograms are
781 -- named To_Any and From_Any.
783 function Build_From_Any_Call
784 (Typ : Entity_Id;
785 N : Node_Id;
786 Decls : List_Id) return Node_Id;
787 -- Build call to From_Any attribute function of type Typ with
788 -- expression N as actual parameter. Decls is the declarations list
789 -- for an appropriate enclosing scope of the point where the call
790 -- will be inserted; if the From_Any attribute for Typ needs to be
791 -- generated at this point, its declaration is appended to Decls.
793 procedure Build_From_Any_Function
794 (Loc : Source_Ptr;
795 Typ : Entity_Id;
796 Decl : out Node_Id;
797 Fnam : out Entity_Id);
798 -- Build From_Any attribute function for Typ. Loc is the reference
799 -- location for generated nodes, Typ is the type for which the
800 -- conversion function is generated. On return, Decl and Fnam contain
801 -- the declaration and entity for the newly-created function.
803 function Build_To_Any_Call
804 (Loc : Source_Ptr;
805 N : Node_Id;
806 Decls : List_Id;
807 Constrained : Boolean := False) return Node_Id;
808 -- Build call to To_Any attribute function with expression as actual
809 -- parameter. Loc is the reference location of generated nodes,
810 -- Decls is the declarations list for an appropriate enclosing scope
811 -- of the point where the call will be inserted; if the To_Any
812 -- attribute for the type of N needs to be generated at this point,
813 -- its declaration is appended to Decls. For the case of a limited
814 -- type, there is an additional parameter Constrained indicating
815 -- whether 'Write (when True) or 'Output (when False) is used.
817 procedure Build_To_Any_Function
818 (Loc : Source_Ptr;
819 Typ : Entity_Id;
820 Decl : out Node_Id;
821 Fnam : out Entity_Id);
822 -- Build To_Any attribute function for Typ. Loc is the reference
823 -- location for generated nodes, Typ is the type for which the
824 -- conversion function is generated. On return, Decl and Fnam contain
825 -- the declaration and entity for the newly-created function.
827 function Build_TypeCode_Call
828 (Loc : Source_Ptr;
829 Typ : Entity_Id;
830 Decls : List_Id) return Node_Id;
831 -- Build call to TypeCode attribute function for Typ. Decls is the
832 -- declarations list for an appropriate enclosing scope of the point
833 -- where the call will be inserted; if the To_Any attribute for Typ
834 -- needs to be generated at this point, its declaration is appended
835 -- to Decls.
837 procedure Build_TypeCode_Function
838 (Loc : Source_Ptr;
839 Typ : Entity_Id;
840 Decl : out Node_Id;
841 Fnam : out Entity_Id);
842 -- Build TypeCode attribute function for Typ. Loc is the reference
843 -- location for generated nodes, Typ is the type for which the
844 -- typecode function is generated. On return, Decl and Fnam contain
845 -- the declaration and entity for the newly-created function.
847 procedure Build_Name_And_Repository_Id
848 (E : Entity_Id;
849 Name_Str : out String_Id;
850 Repo_Id_Str : out String_Id);
851 -- In the PolyORB distribution model, each distributed object type
852 -- and each distributed operation has a globally unique identifier,
853 -- its Repository Id. This subprogram builds and returns two strings
854 -- for entity E (a distributed object type or operation): one
855 -- containing the name of E, the second containing its repository id.
857 procedure Assign_Opaque_From_Any
858 (Loc : Source_Ptr;
859 Stms : List_Id;
860 Typ : Entity_Id;
861 N : Node_Id;
862 Target : Entity_Id;
863 Constrained : Boolean := False);
864 -- For a Target object of type Typ, which has opaque representation
865 -- as a sequence of octets determined by stream attributes (which
866 -- includes all limited types), append code to Stmts performing the
867 -- equivalent of:
868 -- Target := Typ'From_Any (N)
870 -- or, if Target is Empty:
871 -- return Typ'From_Any (N)
873 -- Constrained determines whether 'Input (when False) or 'Read
874 -- (when True) is used.
876 end Helpers;
878 end PolyORB_Support;
880 -- The following PolyORB-specific subprograms are made visible to Exp_Attr:
882 function Build_From_Any_Call
883 (Typ : Entity_Id;
884 N : Node_Id;
885 Decls : List_Id) return Node_Id
886 renames PolyORB_Support.Helpers.Build_From_Any_Call;
888 function Build_To_Any_Call
889 (Loc : Source_Ptr;
890 N : Node_Id;
891 Decls : List_Id;
892 Constrained : Boolean := False) return Node_Id
893 renames PolyORB_Support.Helpers.Build_To_Any_Call;
895 function Build_TypeCode_Call
896 (Loc : Source_Ptr;
897 Typ : Entity_Id;
898 Decls : List_Id) return Node_Id
899 renames PolyORB_Support.Helpers.Build_TypeCode_Call;
901 ------------------------------------
902 -- Local variables and structures --
903 ------------------------------------
905 RCI_Cache : Node_Id;
906 -- Needs comments ???
908 Output_From_Constrained : constant array (Boolean) of Name_Id :=
909 (False => Name_Output,
910 True => Name_Write);
911 -- The attribute to choose depending on the fact that the parameter
912 -- is constrained or not. There is no such thing as Input_From_Constrained
913 -- since this require separate mechanisms ('Input is a function while
914 -- 'Read is a procedure).
916 generic
917 with procedure Process_Subprogram_Declaration (Decl : Node_Id);
918 -- Generate calling or receiving stub for this subprogram declaration
920 procedure Build_Package_Stubs (Pkg_Spec : Node_Id);
921 -- Recursively visit the given RCI Package_Specification, calling
922 -- Process_Subprogram_Declaration for each remote subprogram.
924 -------------------------
925 -- Build_Package_Stubs --
926 -------------------------
928 procedure Build_Package_Stubs (Pkg_Spec : Node_Id) is
929 Decls : constant List_Id := Visible_Declarations (Pkg_Spec);
930 Decl : Node_Id;
932 procedure Visit_Nested_Pkg (Nested_Pkg_Decl : Node_Id);
933 -- Recurse for the given nested package declaration
935 ----------------------
936 -- Visit_Nested_Pkg --
937 ----------------------
939 procedure Visit_Nested_Pkg (Nested_Pkg_Decl : Node_Id) is
940 Nested_Pkg_Spec : constant Node_Id := Specification (Nested_Pkg_Decl);
941 begin
942 Push_Scope (Scope_Of_Spec (Nested_Pkg_Spec));
943 Build_Package_Stubs (Nested_Pkg_Spec);
944 Pop_Scope;
945 end Visit_Nested_Pkg;
947 -- Start of processing for Build_Package_Stubs
949 begin
950 Decl := First (Decls);
951 while Present (Decl) loop
952 case Nkind (Decl) is
953 when N_Subprogram_Declaration =>
955 -- Note: we test Comes_From_Source on Spec, not Decl, because
956 -- in the case of a subprogram instance, only the specification
957 -- (not the declaration) is marked as coming from source.
959 if Comes_From_Source (Specification (Decl)) then
960 Process_Subprogram_Declaration (Decl);
961 end if;
963 when N_Package_Declaration =>
965 -- Case of a nested package or package instantiation coming
966 -- from source. Note that the anonymous wrapper package for
967 -- subprogram instances is not flagged Is_Generic_Instance at
968 -- this point, so there is a distinct circuit to handle them
969 -- (see case N_Subprogram_Instantiation below).
971 declare
972 Pkg_Ent : constant Entity_Id :=
973 Defining_Unit_Name (Specification (Decl));
974 begin
975 if Comes_From_Source (Decl)
976 or else
977 (Is_Generic_Instance (Pkg_Ent)
978 and then Comes_From_Source
979 (Get_Unit_Instantiation_Node (Pkg_Ent)))
980 then
981 Visit_Nested_Pkg (Decl);
982 end if;
983 end;
985 when N_Subprogram_Instantiation =>
987 -- The subprogram declaration for an instance of a generic
988 -- subprogram is wrapped in a package that does not come from
989 -- source, so we need to explicitly traverse it here.
991 if Comes_From_Source (Decl) then
992 Visit_Nested_Pkg (Instance_Spec (Decl));
993 end if;
995 when others =>
996 null;
997 end case;
999 Next (Decl);
1000 end loop;
1001 end Build_Package_Stubs;
1003 ---------------------------------------
1004 -- Add_Calling_Stubs_To_Declarations --
1005 ---------------------------------------
1007 procedure Add_Calling_Stubs_To_Declarations (Pkg_Spec : Node_Id) is
1008 Loc : constant Source_Ptr := Sloc (Pkg_Spec);
1010 Current_Subprogram_Number : Int := First_RCI_Subprogram_Id;
1011 -- Subprogram id 0 is reserved for calls received from
1012 -- remote access-to-subprogram dereferences.
1014 RCI_Instantiation : Node_Id;
1016 procedure Visit_Subprogram (Decl : Node_Id);
1017 -- Generate calling stub for one remote subprogram
1019 ----------------------
1020 -- Visit_Subprogram --
1021 ----------------------
1023 procedure Visit_Subprogram (Decl : Node_Id) is
1024 Loc : constant Source_Ptr := Sloc (Decl);
1025 Spec : constant Node_Id := Specification (Decl);
1026 Subp_Stubs : Node_Id;
1028 Subp_Str : String_Id;
1029 pragma Warnings (Off, Subp_Str);
1031 begin
1032 -- Disable expansion of stubs if serious errors have been diagnosed,
1033 -- because otherwise some illegal remote subprogram declarations
1034 -- could cause cascaded errors in stubs.
1036 if Serious_Errors_Detected /= 0 then
1037 return;
1038 end if;
1040 Assign_Subprogram_Identifier
1041 (Defining_Unit_Name (Spec), Current_Subprogram_Number, Subp_Str);
1043 Subp_Stubs :=
1044 Build_Subprogram_Calling_Stubs
1045 (Vis_Decl => Decl,
1046 Subp_Id =>
1047 Build_Subprogram_Id (Loc, Defining_Unit_Name (Spec)),
1048 Asynchronous =>
1049 Nkind (Spec) = N_Procedure_Specification
1050 and then Is_Asynchronous (Defining_Unit_Name (Spec)));
1052 Append_To (List_Containing (Decl), Subp_Stubs);
1053 Analyze (Subp_Stubs);
1055 Current_Subprogram_Number := Current_Subprogram_Number + 1;
1056 end Visit_Subprogram;
1058 procedure Visit_Spec is new Build_Package_Stubs (Visit_Subprogram);
1060 -- Start of processing for Add_Calling_Stubs_To_Declarations
1062 begin
1063 Push_Scope (Scope_Of_Spec (Pkg_Spec));
1065 -- The first thing added is an instantiation of the generic package
1066 -- System.Partition_Interface.RCI_Locator with the name of this remote
1067 -- package. This will act as an interface with the name server to
1068 -- determine the Partition_ID and the RPC_Receiver for the receiver
1069 -- of this package.
1071 RCI_Instantiation := RCI_Package_Locator (Loc, Pkg_Spec);
1072 RCI_Cache := Defining_Unit_Name (RCI_Instantiation);
1074 Append_To (Visible_Declarations (Pkg_Spec), RCI_Instantiation);
1075 Analyze (RCI_Instantiation);
1077 -- For each subprogram declaration visible in the spec, we do build a
1078 -- body. We also increment a counter to assign a different Subprogram_Id
1079 -- to each subprogram. The receiving stubs processing uses the same
1080 -- mechanism and will thus assign the same Id and do the correct
1081 -- dispatching.
1083 Overload_Counter_Table.Reset;
1084 PolyORB_Support.Reserve_NamingContext_Methods;
1086 Visit_Spec (Pkg_Spec);
1088 Pop_Scope;
1089 end Add_Calling_Stubs_To_Declarations;
1091 -----------------------------
1092 -- Add_Parameter_To_NVList --
1093 -----------------------------
1095 function Add_Parameter_To_NVList
1096 (Loc : Source_Ptr;
1097 NVList : Entity_Id;
1098 Parameter : Entity_Id;
1099 Constrained : Boolean;
1100 RACW_Ctrl : Boolean := False;
1101 Any : Entity_Id) return Node_Id
1103 Parameter_Name_String : String_Id;
1104 Parameter_Mode : Node_Id;
1106 function Parameter_Passing_Mode
1107 (Loc : Source_Ptr;
1108 Parameter : Entity_Id;
1109 Constrained : Boolean) return Node_Id;
1110 -- Return an expression that denotes the parameter passing mode to be
1111 -- used for Parameter in distribution stubs, where Constrained is
1112 -- Parameter's constrained status.
1114 ----------------------------
1115 -- Parameter_Passing_Mode --
1116 ----------------------------
1118 function Parameter_Passing_Mode
1119 (Loc : Source_Ptr;
1120 Parameter : Entity_Id;
1121 Constrained : Boolean) return Node_Id
1123 Lib_RE : RE_Id;
1125 begin
1126 if Out_Present (Parameter) then
1127 if In_Present (Parameter)
1128 or else not Constrained
1129 then
1130 -- Unconstrained formals must be translated
1131 -- to 'in' or 'inout', not 'out', because
1132 -- they need to be constrained by the actual.
1134 Lib_RE := RE_Mode_Inout;
1135 else
1136 Lib_RE := RE_Mode_Out;
1137 end if;
1139 else
1140 Lib_RE := RE_Mode_In;
1141 end if;
1143 return New_Occurrence_Of (RTE (Lib_RE), Loc);
1144 end Parameter_Passing_Mode;
1146 -- Start of processing for Add_Parameter_To_NVList
1148 begin
1149 if Nkind (Parameter) = N_Defining_Identifier then
1150 Get_Name_String (Chars (Parameter));
1151 else
1152 Get_Name_String (Chars (Defining_Identifier (Parameter)));
1153 end if;
1155 Parameter_Name_String := String_From_Name_Buffer;
1157 if RACW_Ctrl or else Nkind (Parameter) = N_Defining_Identifier then
1159 -- When the parameter passed to Add_Parameter_To_NVList is an
1160 -- Extra_Constrained parameter, Parameter is an N_Defining_
1161 -- Identifier, instead of a complete N_Parameter_Specification.
1162 -- Thus, we explicitly set 'in' mode in this case.
1164 Parameter_Mode := New_Occurrence_Of (RTE (RE_Mode_In), Loc);
1166 else
1167 Parameter_Mode :=
1168 Parameter_Passing_Mode (Loc, Parameter, Constrained);
1169 end if;
1171 return
1172 Make_Procedure_Call_Statement (Loc,
1173 Name =>
1174 New_Occurrence_Of (RTE (RE_NVList_Add_Item), Loc),
1175 Parameter_Associations => New_List (
1176 New_Occurrence_Of (NVList, Loc),
1177 Make_Function_Call (Loc,
1178 Name =>
1179 New_Occurrence_Of (RTE (RE_To_PolyORB_String), Loc),
1180 Parameter_Associations => New_List (
1181 Make_String_Literal (Loc, Strval => Parameter_Name_String))),
1182 New_Occurrence_Of (Any, Loc),
1183 Parameter_Mode));
1184 end Add_Parameter_To_NVList;
1186 --------------------------------
1187 -- Add_RACW_Asynchronous_Flag --
1188 --------------------------------
1190 procedure Add_RACW_Asynchronous_Flag
1191 (Declarations : List_Id;
1192 RACW_Type : Entity_Id)
1194 Loc : constant Source_Ptr := Sloc (RACW_Type);
1196 Asynchronous_Flag : constant Entity_Id :=
1197 Make_Defining_Identifier (Loc,
1198 New_External_Name (Chars (RACW_Type), 'A'));
1200 begin
1201 -- Declare the asynchronous flag. This flag will be changed to True
1202 -- whenever it is known that the RACW type is asynchronous.
1204 Append_To (Declarations,
1205 Make_Object_Declaration (Loc,
1206 Defining_Identifier => Asynchronous_Flag,
1207 Constant_Present => True,
1208 Object_Definition => New_Occurrence_Of (Standard_Boolean, Loc),
1209 Expression => New_Occurrence_Of (Standard_False, Loc)));
1211 Asynchronous_Flags_Table.Set (RACW_Type, Asynchronous_Flag);
1212 end Add_RACW_Asynchronous_Flag;
1214 -----------------------
1215 -- Add_RACW_Features --
1216 -----------------------
1218 procedure Add_RACW_Features (RACW_Type : Entity_Id) is
1219 Desig : constant Entity_Id := Etype (Designated_Type (RACW_Type));
1220 Same_Scope : constant Boolean := Scope (Desig) = Scope (RACW_Type);
1222 Pkg_Spec : Node_Id;
1223 Decls : List_Id;
1224 Body_Decls : List_Id;
1226 Stub_Type : Entity_Id;
1227 Stub_Type_Access : Entity_Id;
1228 RPC_Receiver_Decl : Node_Id;
1230 Existing : Boolean;
1231 -- True when appropriate stubs have already been generated (this is the
1232 -- case when another RACW with the same designated type has already been
1233 -- encountered), in which case we reuse the previous stubs rather than
1234 -- generating new ones.
1236 begin
1237 if not Expander_Active then
1238 return;
1239 end if;
1241 -- Mark the current package declaration as containing an RACW, so that
1242 -- the bodies for the calling stubs and the RACW stream subprograms
1243 -- are attached to the tree when the corresponding body is encountered.
1245 Set_Has_RACW (Current_Scope);
1247 -- Look for place to declare the RACW stub type and RACW operations
1249 Pkg_Spec := Empty;
1251 if Same_Scope then
1253 -- Case of declaring the RACW in the same package as its designated
1254 -- type: we know that the designated type is a private type, so we
1255 -- use the private declarations list.
1257 Pkg_Spec := Package_Specification_Of_Scope (Current_Scope);
1259 if Present (Private_Declarations (Pkg_Spec)) then
1260 Decls := Private_Declarations (Pkg_Spec);
1261 else
1262 Decls := Visible_Declarations (Pkg_Spec);
1263 end if;
1265 else
1266 -- Case of declaring the RACW in another package than its designated
1267 -- type: use the private declarations list if present; otherwise
1268 -- use the visible declarations.
1270 Decls := List_Containing (Declaration_Node (RACW_Type));
1272 end if;
1274 -- If we were unable to find the declarations, that means that the
1275 -- completion of the type was missing. We can safely return and let the
1276 -- error be caught by the semantic analysis.
1278 if No (Decls) then
1279 return;
1280 end if;
1282 Add_Stub_Type
1283 (Designated_Type => Desig,
1284 RACW_Type => RACW_Type,
1285 Decls => Decls,
1286 Stub_Type => Stub_Type,
1287 Stub_Type_Access => Stub_Type_Access,
1288 RPC_Receiver_Decl => RPC_Receiver_Decl,
1289 Body_Decls => Body_Decls,
1290 Existing => Existing);
1292 -- If this RACW is not in the main unit, do not generate primitive or
1293 -- TSS bodies.
1295 if not Entity_Is_In_Main_Unit (RACW_Type) then
1296 Body_Decls := No_List;
1297 end if;
1299 Add_RACW_Asynchronous_Flag
1300 (Declarations => Decls,
1301 RACW_Type => RACW_Type);
1303 Specific_Add_RACW_Features
1304 (RACW_Type => RACW_Type,
1305 Desig => Desig,
1306 Stub_Type => Stub_Type,
1307 Stub_Type_Access => Stub_Type_Access,
1308 RPC_Receiver_Decl => RPC_Receiver_Decl,
1309 Body_Decls => Body_Decls);
1311 -- If we already have stubs for this designated type, nothing to do
1313 if Existing then
1314 return;
1315 end if;
1317 if Is_Frozen (Desig) then
1318 Validate_RACW_Primitives (RACW_Type);
1319 Add_RACW_Primitive_Declarations_And_Bodies
1320 (Designated_Type => Desig,
1321 Insertion_Node => RPC_Receiver_Decl,
1322 Body_Decls => Body_Decls);
1324 else
1325 -- Validate_RACW_Primitives requires the list of all primitives of
1326 -- the designated type, so defer processing until Desig is frozen.
1327 -- See Exp_Ch3.Freeze_Type.
1329 Add_Access_Type_To_Process (E => Desig, A => RACW_Type);
1330 end if;
1331 end Add_RACW_Features;
1333 ------------------------------------------------
1334 -- Add_RACW_Primitive_Declarations_And_Bodies --
1335 ------------------------------------------------
1337 procedure Add_RACW_Primitive_Declarations_And_Bodies
1338 (Designated_Type : Entity_Id;
1339 Insertion_Node : Node_Id;
1340 Body_Decls : List_Id)
1342 Loc : constant Source_Ptr := Sloc (Insertion_Node);
1343 -- Set Sloc of generated declaration copy of insertion node Sloc, so
1344 -- the declarations are recognized as belonging to the current package.
1346 Stub_Elements : constant Stub_Structure :=
1347 Stubs_Table.Get (Designated_Type);
1349 pragma Assert (Stub_Elements /= Empty_Stub_Structure);
1351 Is_RAS : constant Boolean :=
1352 not Comes_From_Source (Stub_Elements.RACW_Type);
1353 -- Case of the RACW generated to implement a remote access-to-
1354 -- subprogram type.
1356 Build_Bodies : constant Boolean :=
1357 In_Extended_Main_Code_Unit (Stub_Elements.Stub_Type);
1358 -- True when bodies must be prepared in Body_Decls. Bodies are generated
1359 -- only when the main unit is the unit that contains the stub type.
1361 Current_Insertion_Node : Node_Id := Insertion_Node;
1363 RPC_Receiver : Entity_Id;
1364 RPC_Receiver_Statements : List_Id;
1365 RPC_Receiver_Case_Alternatives : constant List_Id := New_List;
1366 RPC_Receiver_Elsif_Parts : List_Id := No_List;
1367 RPC_Receiver_Request : Entity_Id := Empty;
1368 RPC_Receiver_Subp_Id : Entity_Id := Empty;
1369 RPC_Receiver_Subp_Index : Entity_Id := Empty;
1371 Subp_Str : String_Id;
1373 Current_Primitive_Elmt : Elmt_Id;
1374 Current_Primitive : Entity_Id;
1375 Current_Primitive_Body : Node_Id;
1376 Current_Primitive_Spec : Node_Id;
1377 Current_Primitive_Decl : Node_Id;
1378 Current_Primitive_Number : Int := 0;
1379 Current_Primitive_Alias : Node_Id;
1380 Current_Receiver : Entity_Id;
1381 Current_Receiver_Body : Node_Id;
1382 RPC_Receiver_Decl : Node_Id;
1383 Possibly_Asynchronous : Boolean;
1385 begin
1386 if not Expander_Active then
1387 return;
1388 end if;
1390 if not Is_RAS then
1391 RPC_Receiver := Make_Temporary (Loc, 'P');
1393 Specific_Build_RPC_Receiver_Body
1394 (RPC_Receiver => RPC_Receiver,
1395 Request => RPC_Receiver_Request,
1396 Subp_Id => RPC_Receiver_Subp_Id,
1397 Subp_Index => RPC_Receiver_Subp_Index,
1398 Stmts => RPC_Receiver_Statements,
1399 Decl => RPC_Receiver_Decl);
1401 if Get_PCS_Name = Name_PolyORB_DSA then
1403 -- For the case of PolyORB, we need to map a textual operation
1404 -- name into a primitive index. Currently we do so using a simple
1405 -- sequence of string comparisons.
1407 RPC_Receiver_Elsif_Parts := New_List;
1408 end if;
1409 end if;
1411 -- Build callers, receivers for every primitive operations and a RPC
1412 -- receiver for this type. Note that we use Direct_Primitive_Operations,
1413 -- not Primitive_Operations, because we really want just the primitives
1414 -- of the tagged type itself, and in the case of a tagged synchronized
1415 -- type we do not want to get the primitives of the corresponding
1416 -- record type).
1418 if Present (Direct_Primitive_Operations (Designated_Type)) then
1419 Overload_Counter_Table.Reset;
1421 Current_Primitive_Elmt :=
1422 First_Elmt (Direct_Primitive_Operations (Designated_Type));
1423 while Current_Primitive_Elmt /= No_Elmt loop
1424 Current_Primitive := Node (Current_Primitive_Elmt);
1426 -- Copy the primitive of all the parents, except predefined ones
1427 -- that are not remotely dispatching. Also omit hidden primitives
1428 -- (occurs in the case of primitives of interface progenitors
1429 -- other than immediate ancestors of the Designated_Type).
1431 if Chars (Current_Primitive) /= Name_uSize
1432 and then Chars (Current_Primitive) /= Name_uAlignment
1433 and then not
1434 (Is_TSS (Current_Primitive, TSS_Deep_Finalize) or else
1435 Is_TSS (Current_Primitive, TSS_Stream_Input) or else
1436 Is_TSS (Current_Primitive, TSS_Stream_Output) or else
1437 Is_TSS (Current_Primitive, TSS_Stream_Read) or else
1438 Is_TSS (Current_Primitive, TSS_Stream_Write)
1439 or else
1440 Is_Predefined_Interface_Primitive (Current_Primitive))
1441 and then not Is_Hidden (Current_Primitive)
1442 then
1443 -- The first thing to do is build an up-to-date copy of the
1444 -- spec with all the formals referencing Controlling_Type
1445 -- transformed into formals referencing Stub_Type. Since this
1446 -- primitive may have been inherited, go back the alias chain
1447 -- until the real primitive has been found.
1449 Current_Primitive_Alias := Ultimate_Alias (Current_Primitive);
1451 -- Copy the spec from the original declaration for the purpose
1452 -- of declaring an overriding subprogram: we need to replace
1453 -- the type of each controlling formal with Stub_Type. The
1454 -- primitive may have been declared for Controlling_Type or
1455 -- inherited from some ancestor type for which we do not have
1456 -- an easily determined Entity_Id. We have no systematic way
1457 -- of knowing which type to substitute Stub_Type for. Instead,
1458 -- Copy_Specification relies on the flag Is_Controlling_Formal
1459 -- to determine which formals to change.
1461 Current_Primitive_Spec :=
1462 Copy_Specification (Loc,
1463 Spec => Parent (Current_Primitive_Alias),
1464 Ctrl_Type => Stub_Elements.Stub_Type);
1466 Current_Primitive_Decl :=
1467 Make_Subprogram_Declaration (Loc,
1468 Specification => Current_Primitive_Spec);
1470 Insert_After_And_Analyze (Current_Insertion_Node,
1471 Current_Primitive_Decl);
1472 Current_Insertion_Node := Current_Primitive_Decl;
1474 Possibly_Asynchronous :=
1475 Nkind (Current_Primitive_Spec) = N_Procedure_Specification
1476 and then Could_Be_Asynchronous (Current_Primitive_Spec);
1478 Assign_Subprogram_Identifier (
1479 Defining_Unit_Name (Current_Primitive_Spec),
1480 Current_Primitive_Number,
1481 Subp_Str);
1483 if Build_Bodies then
1484 Current_Primitive_Body :=
1485 Build_Subprogram_Calling_Stubs
1486 (Vis_Decl => Current_Primitive_Decl,
1487 Subp_Id =>
1488 Build_Subprogram_Id (Loc,
1489 Defining_Unit_Name (Current_Primitive_Spec)),
1490 Asynchronous => Possibly_Asynchronous,
1491 Dynamically_Asynchronous => Possibly_Asynchronous,
1492 Stub_Type => Stub_Elements.Stub_Type,
1493 RACW_Type => Stub_Elements.RACW_Type);
1494 Append_To (Body_Decls, Current_Primitive_Body);
1496 -- Analyzing the body here would cause the Stub type to
1497 -- be frozen, thus preventing subsequent primitive
1498 -- declarations. For this reason, it will be analyzed
1499 -- later in the regular flow (and in the context of the
1500 -- appropriate unit body, see Append_RACW_Bodies).
1502 end if;
1504 -- Build the receiver stubs
1506 if Build_Bodies and then not Is_RAS then
1507 Current_Receiver_Body :=
1508 Specific_Build_Subprogram_Receiving_Stubs
1509 (Vis_Decl => Current_Primitive_Decl,
1510 Asynchronous => Possibly_Asynchronous,
1511 Dynamically_Asynchronous => Possibly_Asynchronous,
1512 Stub_Type => Stub_Elements.Stub_Type,
1513 RACW_Type => Stub_Elements.RACW_Type,
1514 Parent_Primitive => Current_Primitive);
1516 Current_Receiver :=
1517 Defining_Unit_Name (Specification (Current_Receiver_Body));
1519 Append_To (Body_Decls, Current_Receiver_Body);
1521 -- Add a case alternative to the receiver
1523 if Get_PCS_Name = Name_PolyORB_DSA then
1524 Append_To (RPC_Receiver_Elsif_Parts,
1525 Make_Elsif_Part (Loc,
1526 Condition =>
1527 Make_Function_Call (Loc,
1528 Name =>
1529 New_Occurrence_Of (
1530 RTE (RE_Caseless_String_Eq), Loc),
1531 Parameter_Associations => New_List (
1532 New_Occurrence_Of (RPC_Receiver_Subp_Id, Loc),
1533 Make_String_Literal (Loc, Subp_Str))),
1535 Then_Statements => New_List (
1536 Make_Assignment_Statement (Loc,
1537 Name => New_Occurrence_Of (
1538 RPC_Receiver_Subp_Index, Loc),
1539 Expression =>
1540 Make_Integer_Literal (Loc,
1541 Intval => Current_Primitive_Number)))));
1542 end if;
1544 Append_To (RPC_Receiver_Case_Alternatives,
1545 Make_Case_Statement_Alternative (Loc,
1546 Discrete_Choices => New_List (
1547 Make_Integer_Literal (Loc, Current_Primitive_Number)),
1549 Statements => New_List (
1550 Make_Procedure_Call_Statement (Loc,
1551 Name =>
1552 New_Occurrence_Of (Current_Receiver, Loc),
1553 Parameter_Associations => New_List (
1554 New_Occurrence_Of (RPC_Receiver_Request, Loc))))));
1555 end if;
1557 -- Increment the index of current primitive
1559 Current_Primitive_Number := Current_Primitive_Number + 1;
1560 end if;
1562 Next_Elmt (Current_Primitive_Elmt);
1563 end loop;
1564 end if;
1566 -- Build the case statement and the heart of the subprogram
1568 if Build_Bodies and then not Is_RAS then
1569 if Get_PCS_Name = Name_PolyORB_DSA
1570 and then Present (First (RPC_Receiver_Elsif_Parts))
1571 then
1572 Append_To (RPC_Receiver_Statements,
1573 Make_Implicit_If_Statement (Designated_Type,
1574 Condition => New_Occurrence_Of (Standard_False, Loc),
1575 Then_Statements => New_List,
1576 Elsif_Parts => RPC_Receiver_Elsif_Parts));
1577 end if;
1579 Append_To (RPC_Receiver_Case_Alternatives,
1580 Make_Case_Statement_Alternative (Loc,
1581 Discrete_Choices => New_List (Make_Others_Choice (Loc)),
1582 Statements => New_List (Make_Null_Statement (Loc))));
1584 Append_To (RPC_Receiver_Statements,
1585 Make_Case_Statement (Loc,
1586 Expression =>
1587 New_Occurrence_Of (RPC_Receiver_Subp_Index, Loc),
1588 Alternatives => RPC_Receiver_Case_Alternatives));
1590 Append_To (Body_Decls, RPC_Receiver_Decl);
1591 Specific_Add_Obj_RPC_Receiver_Completion (Loc,
1592 Body_Decls, RPC_Receiver, Stub_Elements);
1594 -- Do not analyze RPC receiver body at this stage since it references
1595 -- subprograms that have not been analyzed yet. It will be analyzed in
1596 -- the regular flow (see Append_RACW_Bodies).
1598 end if;
1599 end Add_RACW_Primitive_Declarations_And_Bodies;
1601 -----------------------------
1602 -- Add_RAS_Dereference_TSS --
1603 -----------------------------
1605 procedure Add_RAS_Dereference_TSS (N : Node_Id) is
1606 Loc : constant Source_Ptr := Sloc (N);
1608 Type_Def : constant Node_Id := Type_Definition (N);
1609 RAS_Type : constant Entity_Id := Defining_Identifier (N);
1610 Fat_Type : constant Entity_Id := Equivalent_Type (RAS_Type);
1611 RACW_Type : constant Entity_Id := Underlying_RACW_Type (RAS_Type);
1613 RACW_Primitive_Name : Node_Id;
1615 Proc : constant Entity_Id :=
1616 Make_Defining_Identifier (Loc,
1617 Chars => Make_TSS_Name (RAS_Type, TSS_RAS_Dereference));
1619 Proc_Spec : Node_Id;
1620 Param_Specs : List_Id;
1621 Param_Assoc : constant List_Id := New_List;
1622 Stmts : constant List_Id := New_List;
1624 RAS_Parameter : constant Entity_Id := Make_Temporary (Loc, 'P');
1626 Is_Function : constant Boolean :=
1627 Nkind (Type_Def) = N_Access_Function_Definition;
1629 Is_Degenerate : Boolean;
1630 -- Set to True if the subprogram_specification for this RAS has an
1631 -- anonymous access parameter (see Process_Remote_AST_Declaration).
1633 Spec : constant Node_Id := Type_Def;
1635 Current_Parameter : Node_Id;
1637 -- Start of processing for Add_RAS_Dereference_TSS
1639 begin
1640 -- The Dereference TSS for a remote access-to-subprogram type has the
1641 -- form:
1643 -- [function|procedure] ras_typeRD (RAS_Value, <RAS_Parameters>)
1644 -- [return <>]
1646 -- This is called whenever a value of a RAS type is dereferenced
1648 -- First construct a list of parameter specifications:
1650 -- The first formal is the RAS values
1652 Param_Specs := New_List (
1653 Make_Parameter_Specification (Loc,
1654 Defining_Identifier => RAS_Parameter,
1655 In_Present => True,
1656 Parameter_Type =>
1657 New_Occurrence_Of (Fat_Type, Loc)));
1659 -- The following formals are copied from the type declaration
1661 Is_Degenerate := False;
1662 Current_Parameter := First (Parameter_Specifications (Type_Def));
1663 Parameters : while Present (Current_Parameter) loop
1664 if Nkind (Parameter_Type (Current_Parameter)) =
1665 N_Access_Definition
1666 then
1667 Is_Degenerate := True;
1668 end if;
1670 Append_To (Param_Specs,
1671 Make_Parameter_Specification (Loc,
1672 Defining_Identifier =>
1673 Make_Defining_Identifier (Loc,
1674 Chars => Chars (Defining_Identifier (Current_Parameter))),
1675 In_Present => In_Present (Current_Parameter),
1676 Out_Present => Out_Present (Current_Parameter),
1677 Parameter_Type =>
1678 New_Copy_Tree (Parameter_Type (Current_Parameter)),
1679 Expression =>
1680 New_Copy_Tree (Expression (Current_Parameter))));
1682 Append_To (Param_Assoc,
1683 Make_Identifier (Loc,
1684 Chars => Chars (Defining_Identifier (Current_Parameter))));
1686 Next (Current_Parameter);
1687 end loop Parameters;
1689 if Is_Degenerate then
1690 Prepend_To (Param_Assoc, New_Occurrence_Of (RAS_Parameter, Loc));
1692 -- Generate a dummy body. This code will never actually be executed,
1693 -- because null is the only legal value for a degenerate RAS type.
1694 -- For legality's sake (in order to avoid generating a function that
1695 -- does not contain a return statement), we include a dummy recursive
1696 -- call on the TSS itself.
1698 Append_To (Stmts,
1699 Make_Raise_Program_Error (Loc, Reason => PE_Explicit_Raise));
1700 RACW_Primitive_Name := New_Occurrence_Of (Proc, Loc);
1702 else
1703 -- For a normal RAS type, we cast the RAS formal to the corresponding
1704 -- tagged type, and perform a dispatching call to its Call primitive
1705 -- operation.
1707 Prepend_To (Param_Assoc,
1708 Unchecked_Convert_To (RACW_Type,
1709 New_Occurrence_Of (RAS_Parameter, Loc)));
1711 RACW_Primitive_Name :=
1712 Make_Selected_Component (Loc,
1713 Prefix => Scope (RACW_Type),
1714 Selector_Name => Name_uCall);
1715 end if;
1717 if Is_Function then
1718 Append_To (Stmts,
1719 Make_Simple_Return_Statement (Loc,
1720 Expression =>
1721 Make_Function_Call (Loc,
1722 Name => RACW_Primitive_Name,
1723 Parameter_Associations => Param_Assoc)));
1725 else
1726 Append_To (Stmts,
1727 Make_Procedure_Call_Statement (Loc,
1728 Name => RACW_Primitive_Name,
1729 Parameter_Associations => Param_Assoc));
1730 end if;
1732 -- Build the complete subprogram
1734 if Is_Function then
1735 Proc_Spec :=
1736 Make_Function_Specification (Loc,
1737 Defining_Unit_Name => Proc,
1738 Parameter_Specifications => Param_Specs,
1739 Result_Definition =>
1740 New_Occurrence_Of (
1741 Entity (Result_Definition (Spec)), Loc));
1743 Set_Ekind (Proc, E_Function);
1744 Set_Etype (Proc,
1745 New_Occurrence_Of (Entity (Result_Definition (Spec)), Loc));
1747 else
1748 Proc_Spec :=
1749 Make_Procedure_Specification (Loc,
1750 Defining_Unit_Name => Proc,
1751 Parameter_Specifications => Param_Specs);
1753 Set_Ekind (Proc, E_Procedure);
1754 Set_Etype (Proc, Standard_Void_Type);
1755 end if;
1757 Discard_Node (
1758 Make_Subprogram_Body (Loc,
1759 Specification => Proc_Spec,
1760 Declarations => New_List,
1761 Handled_Statement_Sequence =>
1762 Make_Handled_Sequence_Of_Statements (Loc,
1763 Statements => Stmts)));
1765 Set_TSS (Fat_Type, Proc);
1766 end Add_RAS_Dereference_TSS;
1768 -------------------------------
1769 -- Add_RAS_Proxy_And_Analyze --
1770 -------------------------------
1772 procedure Add_RAS_Proxy_And_Analyze
1773 (Decls : List_Id;
1774 Vis_Decl : Node_Id;
1775 All_Calls_Remote_E : Entity_Id;
1776 Proxy_Object_Addr : out Entity_Id)
1778 Loc : constant Source_Ptr := Sloc (Vis_Decl);
1780 Subp_Name : constant Entity_Id :=
1781 Defining_Unit_Name (Specification (Vis_Decl));
1783 Pkg_Name : constant Entity_Id :=
1784 Make_Defining_Identifier (Loc,
1785 Chars => New_External_Name (Chars (Subp_Name), 'P', -1));
1787 Proxy_Type : constant Entity_Id :=
1788 Make_Defining_Identifier (Loc,
1789 Chars =>
1790 New_External_Name
1791 (Related_Id => Chars (Subp_Name),
1792 Suffix => 'P'));
1794 Proxy_Type_Full_View : constant Entity_Id :=
1795 Make_Defining_Identifier (Loc,
1796 Chars (Proxy_Type));
1798 Subp_Decl_Spec : constant Node_Id :=
1799 Build_RAS_Primitive_Specification
1800 (Subp_Spec => Specification (Vis_Decl),
1801 Remote_Object_Type => Proxy_Type);
1803 Subp_Body_Spec : constant Node_Id :=
1804 Build_RAS_Primitive_Specification
1805 (Subp_Spec => Specification (Vis_Decl),
1806 Remote_Object_Type => Proxy_Type);
1808 Vis_Decls : constant List_Id := New_List;
1809 Pvt_Decls : constant List_Id := New_List;
1810 Actuals : constant List_Id := New_List;
1811 Formal : Node_Id;
1812 Perform_Call : Node_Id;
1814 begin
1815 -- type subpP is tagged limited private;
1817 Append_To (Vis_Decls,
1818 Make_Private_Type_Declaration (Loc,
1819 Defining_Identifier => Proxy_Type,
1820 Tagged_Present => True,
1821 Limited_Present => True));
1823 -- [subprogram] Call
1824 -- (Self : access subpP;
1825 -- ...other-formals...)
1826 -- [return T];
1828 Append_To (Vis_Decls,
1829 Make_Subprogram_Declaration (Loc,
1830 Specification => Subp_Decl_Spec));
1832 -- A : constant System.Address;
1834 Proxy_Object_Addr := Make_Defining_Identifier (Loc, Name_uA);
1836 Append_To (Vis_Decls,
1837 Make_Object_Declaration (Loc,
1838 Defining_Identifier => Proxy_Object_Addr,
1839 Constant_Present => True,
1840 Object_Definition => New_Occurrence_Of (RTE (RE_Address), Loc)));
1842 -- private
1844 -- type subpP is tagged limited record
1845 -- All_Calls_Remote : Boolean := [All_Calls_Remote?];
1846 -- ...
1847 -- end record;
1849 Append_To (Pvt_Decls,
1850 Make_Full_Type_Declaration (Loc,
1851 Defining_Identifier => Proxy_Type_Full_View,
1852 Type_Definition =>
1853 Build_Remote_Subprogram_Proxy_Type (Loc,
1854 New_Occurrence_Of (All_Calls_Remote_E, Loc))));
1856 -- Trick semantic analysis into swapping the public and full view when
1857 -- freezing the public view.
1859 Set_Comes_From_Source (Proxy_Type_Full_View, True);
1861 -- procedure Call
1862 -- (Self : access O;
1863 -- ...other-formals...) is
1864 -- begin
1865 -- P (...other-formals...);
1866 -- end Call;
1868 -- function Call
1869 -- (Self : access O;
1870 -- ...other-formals...)
1871 -- return T is
1872 -- begin
1873 -- return F (...other-formals...);
1874 -- end Call;
1876 if Nkind (Subp_Decl_Spec) = N_Procedure_Specification then
1877 Perform_Call :=
1878 Make_Procedure_Call_Statement (Loc,
1879 Name => New_Occurrence_Of (Subp_Name, Loc),
1880 Parameter_Associations => Actuals);
1881 else
1882 Perform_Call :=
1883 Make_Simple_Return_Statement (Loc,
1884 Expression =>
1885 Make_Function_Call (Loc,
1886 Name => New_Occurrence_Of (Subp_Name, Loc),
1887 Parameter_Associations => Actuals));
1888 end if;
1890 Formal := First (Parameter_Specifications (Subp_Decl_Spec));
1891 pragma Assert (Present (Formal));
1892 loop
1893 Next (Formal);
1894 exit when No (Formal);
1895 Append_To (Actuals,
1896 New_Occurrence_Of (Defining_Identifier (Formal), Loc));
1897 end loop;
1899 -- O : aliased subpP;
1901 Append_To (Pvt_Decls,
1902 Make_Object_Declaration (Loc,
1903 Defining_Identifier => Make_Defining_Identifier (Loc, Name_uO),
1904 Aliased_Present => True,
1905 Object_Definition => New_Occurrence_Of (Proxy_Type, Loc)));
1907 -- A : constant System.Address := O'Address;
1909 Append_To (Pvt_Decls,
1910 Make_Object_Declaration (Loc,
1911 Defining_Identifier =>
1912 Make_Defining_Identifier (Loc, Chars (Proxy_Object_Addr)),
1913 Constant_Present => True,
1914 Object_Definition => New_Occurrence_Of (RTE (RE_Address), Loc),
1915 Expression =>
1916 Make_Attribute_Reference (Loc,
1917 Prefix => New_Occurrence_Of (
1918 Defining_Identifier (Last (Pvt_Decls)), Loc),
1919 Attribute_Name => Name_Address)));
1921 Append_To (Decls,
1922 Make_Package_Declaration (Loc,
1923 Specification => Make_Package_Specification (Loc,
1924 Defining_Unit_Name => Pkg_Name,
1925 Visible_Declarations => Vis_Decls,
1926 Private_Declarations => Pvt_Decls,
1927 End_Label => Empty)));
1928 Analyze (Last (Decls));
1930 Append_To (Decls,
1931 Make_Package_Body (Loc,
1932 Defining_Unit_Name =>
1933 Make_Defining_Identifier (Loc, Chars (Pkg_Name)),
1934 Declarations => New_List (
1935 Make_Subprogram_Body (Loc,
1936 Specification => Subp_Body_Spec,
1937 Declarations => New_List,
1938 Handled_Statement_Sequence =>
1939 Make_Handled_Sequence_Of_Statements (Loc,
1940 Statements => New_List (Perform_Call))))));
1941 Analyze (Last (Decls));
1942 end Add_RAS_Proxy_And_Analyze;
1944 -----------------------
1945 -- Add_RAST_Features --
1946 -----------------------
1948 procedure Add_RAST_Features (Vis_Decl : Node_Id) is
1949 RAS_Type : constant Entity_Id :=
1950 Equivalent_Type (Defining_Identifier (Vis_Decl));
1951 begin
1952 pragma Assert (No (TSS (RAS_Type, TSS_RAS_Access)));
1953 Add_RAS_Dereference_TSS (Vis_Decl);
1954 Specific_Add_RAST_Features (Vis_Decl, RAS_Type);
1955 end Add_RAST_Features;
1957 -------------------
1958 -- Add_Stub_Type --
1959 -------------------
1961 procedure Add_Stub_Type
1962 (Designated_Type : Entity_Id;
1963 RACW_Type : Entity_Id;
1964 Decls : List_Id;
1965 Stub_Type : out Entity_Id;
1966 Stub_Type_Access : out Entity_Id;
1967 RPC_Receiver_Decl : out Node_Id;
1968 Body_Decls : out List_Id;
1969 Existing : out Boolean)
1971 Loc : constant Source_Ptr := Sloc (RACW_Type);
1973 Stub_Elements : constant Stub_Structure :=
1974 Stubs_Table.Get (Designated_Type);
1975 Stub_Type_Decl : Node_Id;
1976 Stub_Type_Access_Decl : Node_Id;
1978 begin
1979 if Stub_Elements /= Empty_Stub_Structure then
1980 Stub_Type := Stub_Elements.Stub_Type;
1981 Stub_Type_Access := Stub_Elements.Stub_Type_Access;
1982 RPC_Receiver_Decl := Stub_Elements.RPC_Receiver_Decl;
1983 Body_Decls := Stub_Elements.Body_Decls;
1984 Existing := True;
1985 return;
1986 end if;
1988 Existing := False;
1989 Stub_Type := Make_Temporary (Loc, 'S');
1990 Set_Ekind (Stub_Type, E_Record_Type);
1991 Set_Is_RACW_Stub_Type (Stub_Type);
1992 Stub_Type_Access :=
1993 Make_Defining_Identifier (Loc,
1994 Chars => New_External_Name
1995 (Related_Id => Chars (Stub_Type), Suffix => 'A'));
1997 RPC_Receiver_Decl := Specific_RPC_Receiver_Decl (RACW_Type);
1999 -- Create new stub type, copying components from generic RACW_Stub_Type
2001 Stub_Type_Decl :=
2002 Make_Full_Type_Declaration (Loc,
2003 Defining_Identifier => Stub_Type,
2004 Type_Definition =>
2005 Make_Record_Definition (Loc,
2006 Tagged_Present => True,
2007 Limited_Present => True,
2008 Component_List =>
2009 Make_Component_List (Loc,
2010 Component_Items =>
2011 Copy_Component_List (RTE (RE_RACW_Stub_Type), Loc))));
2013 -- Does the stub type need to explicitly implement interfaces from the
2014 -- designated type???
2016 -- In particular are there issues in the case where the designated type
2017 -- is a synchronized interface???
2019 Stub_Type_Access_Decl :=
2020 Make_Full_Type_Declaration (Loc,
2021 Defining_Identifier => Stub_Type_Access,
2022 Type_Definition =>
2023 Make_Access_To_Object_Definition (Loc,
2024 All_Present => True,
2025 Subtype_Indication => New_Occurrence_Of (Stub_Type, Loc)));
2027 Append_To (Decls, Stub_Type_Decl);
2028 Analyze (Last (Decls));
2029 Append_To (Decls, Stub_Type_Access_Decl);
2030 Analyze (Last (Decls));
2032 -- We can't directly derive the stub type from the designated type,
2033 -- because we don't want any components or discriminants from the real
2034 -- type, so instead we manually fake a derivation to get an appropriate
2035 -- dispatch table.
2037 Derive_Subprograms (Parent_Type => Designated_Type,
2038 Derived_Type => Stub_Type);
2040 if Present (RPC_Receiver_Decl) then
2041 Append_To (Decls, RPC_Receiver_Decl);
2043 else
2044 -- Case of RACW implementing a RAS with the GARLIC PCS: there is
2045 -- no RPC receiver in that case, this is just an indication of
2046 -- where to insert code in the tree (see comment in declaration of
2047 -- type Stub_Structure).
2049 RPC_Receiver_Decl := Last (Decls);
2050 end if;
2052 Body_Decls := New_List;
2054 Stubs_Table.Set (Designated_Type,
2055 (Stub_Type => Stub_Type,
2056 Stub_Type_Access => Stub_Type_Access,
2057 RPC_Receiver_Decl => RPC_Receiver_Decl,
2058 Body_Decls => Body_Decls,
2059 RACW_Type => RACW_Type));
2060 end Add_Stub_Type;
2062 ------------------------
2063 -- Append_RACW_Bodies --
2064 ------------------------
2066 procedure Append_RACW_Bodies (Decls : List_Id; Spec_Id : Entity_Id) is
2067 E : Entity_Id;
2069 begin
2070 E := First_Entity (Spec_Id);
2071 while Present (E) loop
2072 if Is_Remote_Access_To_Class_Wide_Type (E) then
2073 Append_List_To (Decls, Get_And_Reset_RACW_Bodies (E));
2074 end if;
2076 Next_Entity (E);
2077 end loop;
2078 end Append_RACW_Bodies;
2080 ----------------------------------
2081 -- Assign_Subprogram_Identifier --
2082 ----------------------------------
2084 procedure Assign_Subprogram_Identifier
2085 (Def : Entity_Id;
2086 Spn : Int;
2087 Id : out String_Id)
2089 N : constant Name_Id := Chars (Def);
2091 Overload_Order : constant Int := Overload_Counter_Table.Get (N) + 1;
2093 begin
2094 Overload_Counter_Table.Set (N, Overload_Order);
2096 Get_Name_String (N);
2098 -- Homonym handling: as in Exp_Dbug, but much simpler, because the only
2099 -- entities for which we have to generate names here need only to be
2100 -- disambiguated within their own scope.
2102 if Overload_Order > 1 then
2103 Name_Buffer (Name_Len + 1 .. Name_Len + 2) := "__";
2104 Name_Len := Name_Len + 2;
2105 Add_Nat_To_Name_Buffer (Overload_Order);
2106 end if;
2108 Id := String_From_Name_Buffer;
2109 Subprogram_Identifier_Table.Set
2110 (Def,
2111 Subprogram_Identifiers'(Str_Identifier => Id, Int_Identifier => Spn));
2112 end Assign_Subprogram_Identifier;
2114 -------------------------------------
2115 -- Build_Actual_Object_Declaration --
2116 -------------------------------------
2118 procedure Build_Actual_Object_Declaration
2119 (Object : Entity_Id;
2120 Etyp : Entity_Id;
2121 Variable : Boolean;
2122 Expr : Node_Id;
2123 Decls : List_Id)
2125 Loc : constant Source_Ptr := Sloc (Object);
2127 begin
2128 -- Declare a temporary object for the actual, possibly initialized with
2129 -- a 'Input/From_Any call.
2131 -- Complication arises in the case of limited types, for which such a
2132 -- declaration is illegal in Ada 95. In that case, we first generate a
2133 -- renaming declaration of the 'Input call, and then if needed we
2134 -- generate an overlaid non-constant view.
2136 if Ada_Version <= Ada_95
2137 and then Is_Limited_Type (Etyp)
2138 and then Present (Expr)
2139 then
2141 -- Object : Etyp renames <func-call>
2143 Append_To (Decls,
2144 Make_Object_Renaming_Declaration (Loc,
2145 Defining_Identifier => Object,
2146 Subtype_Mark => New_Occurrence_Of (Etyp, Loc),
2147 Name => Expr));
2149 if Variable then
2151 -- The name defined by the renaming declaration denotes a
2152 -- constant view; create a non-constant object at the same address
2153 -- to be used as the actual.
2155 declare
2156 Constant_Object : constant Entity_Id :=
2157 Make_Temporary (Loc, 'P');
2159 begin
2160 Set_Defining_Identifier
2161 (Last (Decls), Constant_Object);
2163 -- We have an unconstrained Etyp: build the actual constrained
2164 -- subtype for the value we just read from the stream.
2166 -- subtype S is <actual subtype of Constant_Object>;
2168 Append_To (Decls,
2169 Build_Actual_Subtype (Etyp,
2170 New_Occurrence_Of (Constant_Object, Loc)));
2172 -- Object : S;
2174 Append_To (Decls,
2175 Make_Object_Declaration (Loc,
2176 Defining_Identifier => Object,
2177 Object_Definition =>
2178 New_Occurrence_Of
2179 (Defining_Identifier (Last (Decls)), Loc)));
2180 Set_Ekind (Object, E_Variable);
2182 -- Suppress default initialization:
2183 -- pragma Import (Ada, Object);
2185 Append_To (Decls,
2186 Make_Pragma (Loc,
2187 Chars => Name_Import,
2188 Pragma_Argument_Associations => New_List (
2189 Make_Pragma_Argument_Association (Loc,
2190 Chars => Name_Convention,
2191 Expression => Make_Identifier (Loc, Name_Ada)),
2192 Make_Pragma_Argument_Association (Loc,
2193 Chars => Name_Entity,
2194 Expression => New_Occurrence_Of (Object, Loc)))));
2196 -- for Object'Address use Constant_Object'Address;
2198 Append_To (Decls,
2199 Make_Attribute_Definition_Clause (Loc,
2200 Name => New_Occurrence_Of (Object, Loc),
2201 Chars => Name_Address,
2202 Expression =>
2203 Make_Attribute_Reference (Loc,
2204 Prefix => New_Occurrence_Of (Constant_Object, Loc),
2205 Attribute_Name => Name_Address)));
2206 end;
2207 end if;
2209 else
2210 -- General case of a regular object declaration. Object is flagged
2211 -- constant unless it has mode out or in out, to allow the backend
2212 -- to optimize where possible.
2214 -- Object : [constant] Etyp [:= <expr>];
2216 Append_To (Decls,
2217 Make_Object_Declaration (Loc,
2218 Defining_Identifier => Object,
2219 Constant_Present => Present (Expr) and then not Variable,
2220 Object_Definition => New_Occurrence_Of (Etyp, Loc),
2221 Expression => Expr));
2223 if Constant_Present (Last (Decls)) then
2224 Set_Ekind (Object, E_Constant);
2225 else
2226 Set_Ekind (Object, E_Variable);
2227 end if;
2228 end if;
2229 end Build_Actual_Object_Declaration;
2231 ------------------------------
2232 -- Build_Get_Unique_RP_Call --
2233 ------------------------------
2235 function Build_Get_Unique_RP_Call
2236 (Loc : Source_Ptr;
2237 Pointer : Entity_Id;
2238 Stub_Type : Entity_Id) return List_Id
2240 begin
2241 return New_List (
2242 Make_Procedure_Call_Statement (Loc,
2243 Name =>
2244 New_Occurrence_Of (RTE (RE_Get_Unique_Remote_Pointer), Loc),
2245 Parameter_Associations => New_List (
2246 Unchecked_Convert_To (RTE (RE_RACW_Stub_Type_Access),
2247 New_Occurrence_Of (Pointer, Loc)))),
2249 Make_Assignment_Statement (Loc,
2250 Name =>
2251 Make_Selected_Component (Loc,
2252 Prefix => New_Occurrence_Of (Pointer, Loc),
2253 Selector_Name =>
2254 New_Occurrence_Of (First_Tag_Component
2255 (Designated_Type (Etype (Pointer))), Loc)),
2256 Expression =>
2257 Make_Attribute_Reference (Loc,
2258 Prefix => New_Occurrence_Of (Stub_Type, Loc),
2259 Attribute_Name => Name_Tag)));
2261 -- Note: The assignment to Pointer._Tag is safe here because
2262 -- we carefully ensured that Stub_Type has exactly the same layout
2263 -- as System.Partition_Interface.RACW_Stub_Type.
2265 end Build_Get_Unique_RP_Call;
2267 -----------------------------------
2268 -- Build_Ordered_Parameters_List --
2269 -----------------------------------
2271 function Build_Ordered_Parameters_List (Spec : Node_Id) return List_Id is
2272 Constrained_List : List_Id;
2273 Unconstrained_List : List_Id;
2274 Current_Parameter : Node_Id;
2275 Ptyp : Node_Id;
2277 First_Parameter : Node_Id;
2278 For_RAS : Boolean := False;
2280 begin
2281 if No (Parameter_Specifications (Spec)) then
2282 return New_List;
2283 end if;
2285 Constrained_List := New_List;
2286 Unconstrained_List := New_List;
2287 First_Parameter := First (Parameter_Specifications (Spec));
2289 if Nkind (Parameter_Type (First_Parameter)) = N_Access_Definition
2290 and then Chars (Defining_Identifier (First_Parameter)) = Name_uS
2291 then
2292 For_RAS := True;
2293 end if;
2295 -- Loop through the parameters and add them to the right list. Note that
2296 -- we treat a parameter of a null-excluding access type as unconstrained
2297 -- because we can't declare an object of such a type with default
2298 -- initialization.
2300 Current_Parameter := First_Parameter;
2301 while Present (Current_Parameter) loop
2302 Ptyp := Parameter_Type (Current_Parameter);
2304 if (Nkind (Ptyp) = N_Access_Definition
2305 or else not Transmit_As_Unconstrained (Etype (Ptyp)))
2306 and then not (For_RAS and then Current_Parameter = First_Parameter)
2307 then
2308 Append_To (Constrained_List, New_Copy (Current_Parameter));
2309 else
2310 Append_To (Unconstrained_List, New_Copy (Current_Parameter));
2311 end if;
2313 Next (Current_Parameter);
2314 end loop;
2316 -- Unconstrained parameters are returned first
2318 Append_List_To (Unconstrained_List, Constrained_List);
2320 return Unconstrained_List;
2321 end Build_Ordered_Parameters_List;
2323 ----------------------------------
2324 -- Build_Passive_Partition_Stub --
2325 ----------------------------------
2327 procedure Build_Passive_Partition_Stub (U : Node_Id) is
2328 Pkg_Spec : Node_Id;
2329 Pkg_Ent : Entity_Id;
2330 L : List_Id;
2331 Reg : Node_Id;
2332 Loc : constant Source_Ptr := Sloc (U);
2334 begin
2335 -- Verify that the implementation supports distribution, by accessing
2336 -- a type defined in the proper version of system.rpc
2338 declare
2339 Dist_OK : Entity_Id;
2340 pragma Warnings (Off, Dist_OK);
2341 begin
2342 Dist_OK := RTE (RE_Params_Stream_Type);
2343 end;
2345 -- Use body if present, spec otherwise
2347 if Nkind (U) = N_Package_Declaration then
2348 Pkg_Spec := Specification (U);
2349 L := Visible_Declarations (Pkg_Spec);
2350 else
2351 Pkg_Spec := Parent (Corresponding_Spec (U));
2352 L := Declarations (U);
2353 end if;
2354 Pkg_Ent := Defining_Entity (Pkg_Spec);
2356 Reg :=
2357 Make_Procedure_Call_Statement (Loc,
2358 Name =>
2359 New_Occurrence_Of (RTE (RE_Register_Passive_Package), Loc),
2360 Parameter_Associations => New_List (
2361 Make_String_Literal (Loc,
2362 Fully_Qualified_Name_String (Pkg_Ent, Append_NUL => False)),
2363 Make_Attribute_Reference (Loc,
2364 Prefix => New_Occurrence_Of (Pkg_Ent, Loc),
2365 Attribute_Name => Name_Version)));
2366 Append_To (L, Reg);
2367 Analyze (Reg);
2368 end Build_Passive_Partition_Stub;
2370 --------------------------------------
2371 -- Build_RPC_Receiver_Specification --
2372 --------------------------------------
2374 function Build_RPC_Receiver_Specification
2375 (RPC_Receiver : Entity_Id;
2376 Request_Parameter : Entity_Id) return Node_Id
2378 Loc : constant Source_Ptr := Sloc (RPC_Receiver);
2379 begin
2380 return
2381 Make_Procedure_Specification (Loc,
2382 Defining_Unit_Name => RPC_Receiver,
2383 Parameter_Specifications => New_List (
2384 Make_Parameter_Specification (Loc,
2385 Defining_Identifier => Request_Parameter,
2386 Parameter_Type =>
2387 New_Occurrence_Of (RTE (RE_Request_Access), Loc))));
2388 end Build_RPC_Receiver_Specification;
2390 ----------------------------------------
2391 -- Build_Remote_Subprogram_Proxy_Type --
2392 ----------------------------------------
2394 function Build_Remote_Subprogram_Proxy_Type
2395 (Loc : Source_Ptr;
2396 ACR_Expression : Node_Id) return Node_Id
2398 begin
2399 return
2400 Make_Record_Definition (Loc,
2401 Tagged_Present => True,
2402 Limited_Present => True,
2403 Component_List =>
2404 Make_Component_List (Loc,
2405 Component_Items => New_List (
2406 Make_Component_Declaration (Loc,
2407 Defining_Identifier =>
2408 Make_Defining_Identifier (Loc,
2409 Name_All_Calls_Remote),
2410 Component_Definition =>
2411 Make_Component_Definition (Loc,
2412 Subtype_Indication =>
2413 New_Occurrence_Of (Standard_Boolean, Loc)),
2414 Expression =>
2415 ACR_Expression),
2417 Make_Component_Declaration (Loc,
2418 Defining_Identifier =>
2419 Make_Defining_Identifier (Loc,
2420 Name_Receiver),
2421 Component_Definition =>
2422 Make_Component_Definition (Loc,
2423 Subtype_Indication =>
2424 New_Occurrence_Of (RTE (RE_Address), Loc)),
2425 Expression =>
2426 New_Occurrence_Of (RTE (RE_Null_Address), Loc)),
2428 Make_Component_Declaration (Loc,
2429 Defining_Identifier =>
2430 Make_Defining_Identifier (Loc,
2431 Name_Subp_Id),
2432 Component_Definition =>
2433 Make_Component_Definition (Loc,
2434 Subtype_Indication =>
2435 New_Occurrence_Of (RTE (RE_Subprogram_Id), Loc))))));
2436 end Build_Remote_Subprogram_Proxy_Type;
2438 --------------------
2439 -- Build_Stub_Tag --
2440 --------------------
2442 function Build_Stub_Tag
2443 (Loc : Source_Ptr;
2444 RACW_Type : Entity_Id) return Node_Id
2446 Stub_Type : constant Entity_Id := Corresponding_Stub_Type (RACW_Type);
2447 begin
2448 return
2449 Make_Attribute_Reference (Loc,
2450 Prefix => New_Occurrence_Of (Stub_Type, Loc),
2451 Attribute_Name => Name_Tag);
2452 end Build_Stub_Tag;
2454 ------------------------------------
2455 -- Build_Subprogram_Calling_Stubs --
2456 ------------------------------------
2458 function Build_Subprogram_Calling_Stubs
2459 (Vis_Decl : Node_Id;
2460 Subp_Id : Node_Id;
2461 Asynchronous : Boolean;
2462 Dynamically_Asynchronous : Boolean := False;
2463 Stub_Type : Entity_Id := Empty;
2464 RACW_Type : Entity_Id := Empty;
2465 Locator : Entity_Id := Empty;
2466 New_Name : Name_Id := No_Name) return Node_Id
2468 Loc : constant Source_Ptr := Sloc (Vis_Decl);
2470 Decls : constant List_Id := New_List;
2471 Statements : constant List_Id := New_List;
2473 Subp_Spec : Node_Id;
2474 -- The specification of the body
2476 Controlling_Parameter : Entity_Id := Empty;
2478 Asynchronous_Expr : Node_Id := Empty;
2480 RCI_Locator : Entity_Id;
2482 Spec_To_Use : Node_Id;
2484 procedure Insert_Partition_Check (Parameter : Node_Id);
2485 -- Check that the parameter has been elaborated on the same partition
2486 -- than the controlling parameter (E.4(19)).
2488 ----------------------------
2489 -- Insert_Partition_Check --
2490 ----------------------------
2492 procedure Insert_Partition_Check (Parameter : Node_Id) is
2493 Parameter_Entity : constant Entity_Id :=
2494 Defining_Identifier (Parameter);
2495 begin
2496 -- The expression that will be built is of the form:
2498 -- if not Same_Partition (Parameter, Controlling_Parameter) then
2499 -- raise Constraint_Error;
2500 -- end if;
2502 -- We do not check that Parameter is in Stub_Type since such a check
2503 -- has been inserted at the point of call already (a tag check since
2504 -- we have multiple controlling operands).
2506 Append_To (Decls,
2507 Make_Raise_Constraint_Error (Loc,
2508 Condition =>
2509 Make_Op_Not (Loc,
2510 Right_Opnd =>
2511 Make_Function_Call (Loc,
2512 Name =>
2513 New_Occurrence_Of (RTE (RE_Same_Partition), Loc),
2514 Parameter_Associations =>
2515 New_List (
2516 Unchecked_Convert_To (RTE (RE_RACW_Stub_Type_Access),
2517 New_Occurrence_Of (Parameter_Entity, Loc)),
2518 Unchecked_Convert_To (RTE (RE_RACW_Stub_Type_Access),
2519 New_Occurrence_Of (Controlling_Parameter, Loc))))),
2520 Reason => CE_Partition_Check_Failed));
2521 end Insert_Partition_Check;
2523 -- Start of processing for Build_Subprogram_Calling_Stubs
2525 begin
2526 Subp_Spec :=
2527 Copy_Specification (Loc,
2528 Spec => Specification (Vis_Decl),
2529 New_Name => New_Name);
2531 if Locator = Empty then
2532 RCI_Locator := RCI_Cache;
2533 Spec_To_Use := Specification (Vis_Decl);
2534 else
2535 RCI_Locator := Locator;
2536 Spec_To_Use := Subp_Spec;
2537 end if;
2539 -- Find a controlling argument if we have a stub type. Also check
2540 -- if this subprogram can be made asynchronous.
2542 if Present (Stub_Type)
2543 and then Present (Parameter_Specifications (Spec_To_Use))
2544 then
2545 declare
2546 Current_Parameter : Node_Id :=
2547 First (Parameter_Specifications
2548 (Spec_To_Use));
2549 begin
2550 while Present (Current_Parameter) loop
2552 Is_RACW_Controlling_Formal (Current_Parameter, Stub_Type)
2553 then
2554 if Controlling_Parameter = Empty then
2555 Controlling_Parameter :=
2556 Defining_Identifier (Current_Parameter);
2557 else
2558 Insert_Partition_Check (Current_Parameter);
2559 end if;
2560 end if;
2562 Next (Current_Parameter);
2563 end loop;
2564 end;
2565 end if;
2567 pragma Assert (No (Stub_Type) or else Present (Controlling_Parameter));
2569 if Dynamically_Asynchronous then
2570 Asynchronous_Expr := Make_Selected_Component (Loc,
2571 Prefix => Controlling_Parameter,
2572 Selector_Name => Name_Asynchronous);
2573 end if;
2575 Specific_Build_General_Calling_Stubs
2576 (Decls => Decls,
2577 Statements => Statements,
2578 Target => Specific_Build_Stub_Target (Loc,
2579 Decls, RCI_Locator, Controlling_Parameter),
2580 Subprogram_Id => Subp_Id,
2581 Asynchronous => Asynchronous_Expr,
2582 Is_Known_Asynchronous => Asynchronous
2583 and then not Dynamically_Asynchronous,
2584 Is_Known_Non_Asynchronous
2585 => not Asynchronous
2586 and then not Dynamically_Asynchronous,
2587 Is_Function => Nkind (Spec_To_Use) =
2588 N_Function_Specification,
2589 Spec => Spec_To_Use,
2590 Stub_Type => Stub_Type,
2591 RACW_Type => RACW_Type,
2592 Nod => Vis_Decl);
2594 RCI_Calling_Stubs_Table.Set
2595 (Defining_Unit_Name (Specification (Vis_Decl)),
2596 Defining_Unit_Name (Spec_To_Use));
2598 return
2599 Make_Subprogram_Body (Loc,
2600 Specification => Subp_Spec,
2601 Declarations => Decls,
2602 Handled_Statement_Sequence =>
2603 Make_Handled_Sequence_Of_Statements (Loc, Statements));
2604 end Build_Subprogram_Calling_Stubs;
2606 -------------------------
2607 -- Build_Subprogram_Id --
2608 -------------------------
2610 function Build_Subprogram_Id
2611 (Loc : Source_Ptr;
2612 E : Entity_Id) return Node_Id
2614 begin
2615 if Get_Subprogram_Ids (E).Str_Identifier = No_String then
2616 declare
2617 Current_Declaration : Node_Id;
2618 Current_Subp : Entity_Id;
2619 Current_Subp_Str : String_Id;
2620 Current_Subp_Number : Int := First_RCI_Subprogram_Id;
2622 pragma Warnings (Off, Current_Subp_Str);
2624 begin
2625 -- Build_Subprogram_Id is called outside of the context of
2626 -- generating calling or receiving stubs. Hence we are processing
2627 -- an 'Access attribute_reference for an RCI subprogram, for the
2628 -- purpose of obtaining a RAS value.
2630 pragma Assert
2631 (Is_Remote_Call_Interface (Scope (E))
2632 and then
2633 (Nkind (Parent (E)) = N_Procedure_Specification
2634 or else
2635 Nkind (Parent (E)) = N_Function_Specification));
2637 Current_Declaration :=
2638 First (Visible_Declarations
2639 (Package_Specification_Of_Scope (Scope (E))));
2640 while Present (Current_Declaration) loop
2641 if Nkind (Current_Declaration) = N_Subprogram_Declaration
2642 and then Comes_From_Source (Current_Declaration)
2643 then
2644 Current_Subp := Defining_Unit_Name (Specification (
2645 Current_Declaration));
2647 Assign_Subprogram_Identifier
2648 (Current_Subp, Current_Subp_Number, Current_Subp_Str);
2650 Current_Subp_Number := Current_Subp_Number + 1;
2651 end if;
2653 Next (Current_Declaration);
2654 end loop;
2655 end;
2656 end if;
2658 case Get_PCS_Name is
2659 when Name_PolyORB_DSA =>
2660 return Make_String_Literal (Loc, Get_Subprogram_Id (E));
2662 when others =>
2663 return Make_Integer_Literal (Loc, Get_Subprogram_Id (E));
2664 end case;
2665 end Build_Subprogram_Id;
2667 ------------------------
2668 -- Copy_Specification --
2669 ------------------------
2671 function Copy_Specification
2672 (Loc : Source_Ptr;
2673 Spec : Node_Id;
2674 Ctrl_Type : Entity_Id := Empty;
2675 New_Name : Name_Id := No_Name) return Node_Id
2677 Parameters : List_Id := No_List;
2679 Current_Parameter : Node_Id;
2680 Current_Identifier : Entity_Id;
2681 Current_Type : Node_Id;
2683 Name_For_New_Spec : Name_Id;
2685 New_Identifier : Entity_Id;
2687 -- Comments needed in body below ???
2689 begin
2690 if New_Name = No_Name then
2691 pragma Assert (Nkind (Spec) = N_Function_Specification
2692 or else Nkind (Spec) = N_Procedure_Specification);
2694 Name_For_New_Spec := Chars (Defining_Unit_Name (Spec));
2695 else
2696 Name_For_New_Spec := New_Name;
2697 end if;
2699 if Present (Parameter_Specifications (Spec)) then
2700 Parameters := New_List;
2701 Current_Parameter := First (Parameter_Specifications (Spec));
2702 while Present (Current_Parameter) loop
2703 Current_Identifier := Defining_Identifier (Current_Parameter);
2704 Current_Type := Parameter_Type (Current_Parameter);
2706 if Nkind (Current_Type) = N_Access_Definition then
2707 if Present (Ctrl_Type) then
2708 pragma Assert (Is_Controlling_Formal (Current_Identifier));
2709 Current_Type :=
2710 Make_Access_Definition (Loc,
2711 Subtype_Mark => New_Occurrence_Of (Ctrl_Type, Loc),
2712 Null_Exclusion_Present =>
2713 Null_Exclusion_Present (Current_Type));
2715 else
2716 Current_Type :=
2717 Make_Access_Definition (Loc,
2718 Subtype_Mark =>
2719 New_Copy_Tree (Subtype_Mark (Current_Type)),
2720 Null_Exclusion_Present =>
2721 Null_Exclusion_Present (Current_Type));
2722 end if;
2724 else
2725 if Present (Ctrl_Type)
2726 and then Is_Controlling_Formal (Current_Identifier)
2727 then
2728 Current_Type := New_Occurrence_Of (Ctrl_Type, Loc);
2729 else
2730 Current_Type := New_Copy_Tree (Current_Type);
2731 end if;
2732 end if;
2734 New_Identifier := Make_Defining_Identifier (Loc,
2735 Chars (Current_Identifier));
2737 Append_To (Parameters,
2738 Make_Parameter_Specification (Loc,
2739 Defining_Identifier => New_Identifier,
2740 Parameter_Type => Current_Type,
2741 In_Present => In_Present (Current_Parameter),
2742 Out_Present => Out_Present (Current_Parameter),
2743 Expression =>
2744 New_Copy_Tree (Expression (Current_Parameter))));
2746 -- For a regular formal parameter (that needs to be marshalled
2747 -- in the context of remote calls), set the Etype now, because
2748 -- marshalling processing might need it.
2750 if Is_Entity_Name (Current_Type) then
2751 Set_Etype (New_Identifier, Entity (Current_Type));
2753 -- Current_Type is an access definition, special processing
2754 -- (not requiring etype) will occur for marshalling.
2756 else
2757 null;
2758 end if;
2760 Next (Current_Parameter);
2761 end loop;
2762 end if;
2764 case Nkind (Spec) is
2765 when N_Access_Function_Definition
2766 | N_Function_Specification
2768 return
2769 Make_Function_Specification (Loc,
2770 Defining_Unit_Name =>
2771 Make_Defining_Identifier (Loc,
2772 Chars => Name_For_New_Spec),
2773 Parameter_Specifications => Parameters,
2774 Result_Definition =>
2775 New_Occurrence_Of (Entity (Result_Definition (Spec)), Loc));
2777 when N_Access_Procedure_Definition
2778 | N_Procedure_Specification
2780 return
2781 Make_Procedure_Specification (Loc,
2782 Defining_Unit_Name =>
2783 Make_Defining_Identifier (Loc,
2784 Chars => Name_For_New_Spec),
2785 Parameter_Specifications => Parameters);
2787 when others =>
2788 raise Program_Error;
2789 end case;
2790 end Copy_Specification;
2792 -----------------------------
2793 -- Corresponding_Stub_Type --
2794 -----------------------------
2796 function Corresponding_Stub_Type (RACW_Type : Entity_Id) return Entity_Id is
2797 Desig : constant Entity_Id :=
2798 Etype (Designated_Type (RACW_Type));
2799 Stub_Elements : constant Stub_Structure := Stubs_Table.Get (Desig);
2800 begin
2801 return Stub_Elements.Stub_Type;
2802 end Corresponding_Stub_Type;
2804 ---------------------------
2805 -- Could_Be_Asynchronous --
2806 ---------------------------
2808 function Could_Be_Asynchronous (Spec : Node_Id) return Boolean is
2809 Current_Parameter : Node_Id;
2811 begin
2812 if Present (Parameter_Specifications (Spec)) then
2813 Current_Parameter := First (Parameter_Specifications (Spec));
2814 while Present (Current_Parameter) loop
2815 if Out_Present (Current_Parameter) then
2816 return False;
2817 end if;
2819 Next (Current_Parameter);
2820 end loop;
2821 end if;
2823 return True;
2824 end Could_Be_Asynchronous;
2826 ---------------------------
2827 -- Declare_Create_NVList --
2828 ---------------------------
2830 procedure Declare_Create_NVList
2831 (Loc : Source_Ptr;
2832 NVList : Entity_Id;
2833 Decls : List_Id;
2834 Stmts : List_Id)
2836 begin
2837 Append_To (Decls,
2838 Make_Object_Declaration (Loc,
2839 Defining_Identifier => NVList,
2840 Aliased_Present => False,
2841 Object_Definition =>
2842 New_Occurrence_Of (RTE (RE_NVList_Ref), Loc)));
2844 Append_To (Stmts,
2845 Make_Procedure_Call_Statement (Loc,
2846 Name => New_Occurrence_Of (RTE (RE_NVList_Create), Loc),
2847 Parameter_Associations => New_List (
2848 New_Occurrence_Of (NVList, Loc))));
2849 end Declare_Create_NVList;
2851 ---------------------------------------------
2852 -- Expand_All_Calls_Remote_Subprogram_Call --
2853 ---------------------------------------------
2855 procedure Expand_All_Calls_Remote_Subprogram_Call (N : Node_Id) is
2856 Loc : constant Source_Ptr := Sloc (N);
2857 Called_Subprogram : constant Entity_Id := Entity (Name (N));
2858 RCI_Package : constant Entity_Id := Scope (Called_Subprogram);
2859 RCI_Locator_Decl : Node_Id;
2860 RCI_Locator : Entity_Id;
2861 Calling_Stubs : Node_Id;
2862 E_Calling_Stubs : Entity_Id;
2864 begin
2865 E_Calling_Stubs := RCI_Calling_Stubs_Table.Get (Called_Subprogram);
2867 if E_Calling_Stubs = Empty then
2868 RCI_Locator := RCI_Locator_Table.Get (RCI_Package);
2870 -- The RCI_Locator package and calling stub are is inserted at the
2871 -- top level in the current unit, and must appear in the proper scope
2872 -- so that it is not prematurely removed by the GCC back end.
2874 declare
2875 Scop : constant Entity_Id := Cunit_Entity (Current_Sem_Unit);
2876 begin
2877 if Ekind (Scop) = E_Package_Body then
2878 Push_Scope (Spec_Entity (Scop));
2879 elsif Ekind (Scop) = E_Subprogram_Body then
2880 Push_Scope
2881 (Corresponding_Spec (Unit_Declaration_Node (Scop)));
2882 else
2883 Push_Scope (Scop);
2884 end if;
2885 end;
2887 if RCI_Locator = Empty then
2888 RCI_Locator_Decl :=
2889 RCI_Package_Locator (Loc, Package_Specification (RCI_Package));
2890 Prepend_To (Current_Sem_Unit_Declarations, RCI_Locator_Decl);
2891 Analyze (RCI_Locator_Decl);
2892 RCI_Locator := Defining_Unit_Name (RCI_Locator_Decl);
2894 else
2895 RCI_Locator_Decl := Parent (RCI_Locator);
2896 end if;
2898 Calling_Stubs := Build_Subprogram_Calling_Stubs
2899 (Vis_Decl => Parent (Parent (Called_Subprogram)),
2900 Subp_Id =>
2901 Build_Subprogram_Id (Loc, Called_Subprogram),
2902 Asynchronous => Nkind (N) = N_Procedure_Call_Statement
2903 and then
2904 Is_Asynchronous (Called_Subprogram),
2905 Locator => RCI_Locator,
2906 New_Name => New_Internal_Name ('S'));
2907 Insert_After (RCI_Locator_Decl, Calling_Stubs);
2908 Analyze (Calling_Stubs);
2909 Pop_Scope;
2911 E_Calling_Stubs := Defining_Unit_Name (Specification (Calling_Stubs));
2912 end if;
2914 Rewrite (Name (N), New_Occurrence_Of (E_Calling_Stubs, Loc));
2915 end Expand_All_Calls_Remote_Subprogram_Call;
2917 ---------------------------------
2918 -- Expand_Calling_Stubs_Bodies --
2919 ---------------------------------
2921 procedure Expand_Calling_Stubs_Bodies (Unit_Node : Node_Id) is
2922 Spec : constant Node_Id := Specification (Unit_Node);
2923 begin
2924 Add_Calling_Stubs_To_Declarations (Spec);
2925 end Expand_Calling_Stubs_Bodies;
2927 -----------------------------------
2928 -- Expand_Receiving_Stubs_Bodies --
2929 -----------------------------------
2931 procedure Expand_Receiving_Stubs_Bodies (Unit_Node : Node_Id) is
2932 Spec : Node_Id;
2933 Decls : List_Id;
2934 Stubs_Decls : List_Id;
2935 Stubs_Stmts : List_Id;
2937 begin
2938 if Nkind (Unit_Node) = N_Package_Declaration then
2939 Spec := Specification (Unit_Node);
2940 Decls := Private_Declarations (Spec);
2942 if No (Decls) then
2943 Decls := Visible_Declarations (Spec);
2944 end if;
2946 Push_Scope (Scope_Of_Spec (Spec));
2947 Specific_Add_Receiving_Stubs_To_Declarations (Spec, Decls, Decls);
2949 else
2950 Spec :=
2951 Package_Specification_Of_Scope (Corresponding_Spec (Unit_Node));
2952 Decls := Declarations (Unit_Node);
2954 Push_Scope (Scope_Of_Spec (Unit_Node));
2955 Stubs_Decls := New_List;
2956 Stubs_Stmts := New_List;
2957 Specific_Add_Receiving_Stubs_To_Declarations
2958 (Spec, Stubs_Decls, Stubs_Stmts);
2960 Insert_List_Before (First (Decls), Stubs_Decls);
2962 declare
2963 HSS_Stmts : constant List_Id :=
2964 Statements (Handled_Statement_Sequence (Unit_Node));
2966 First_HSS_Stmt : constant Node_Id := First (HSS_Stmts);
2968 begin
2969 if No (First_HSS_Stmt) then
2970 Append_List_To (HSS_Stmts, Stubs_Stmts);
2971 else
2972 Insert_List_Before (First_HSS_Stmt, Stubs_Stmts);
2973 end if;
2974 end;
2975 end if;
2977 Pop_Scope;
2978 end Expand_Receiving_Stubs_Bodies;
2980 --------------------
2981 -- GARLIC_Support --
2982 --------------------
2984 package body GARLIC_Support is
2986 -- Local subprograms
2988 procedure Add_RACW_Read_Attribute
2989 (RACW_Type : Entity_Id;
2990 Stub_Type : Entity_Id;
2991 Stub_Type_Access : Entity_Id;
2992 Body_Decls : List_Id);
2993 -- Add Read attribute for the RACW type. The declaration and attribute
2994 -- definition clauses are inserted right after the declaration of
2995 -- RACW_Type. If Body_Decls is not No_List, the subprogram body is
2996 -- appended to it (case where the RACW declaration is in the main unit).
2998 procedure Add_RACW_Write_Attribute
2999 (RACW_Type : Entity_Id;
3000 Stub_Type : Entity_Id;
3001 Stub_Type_Access : Entity_Id;
3002 RPC_Receiver : Node_Id;
3003 Body_Decls : List_Id);
3004 -- Same as above for the Write attribute
3006 function Stream_Parameter return Node_Id;
3007 function Result return Node_Id;
3008 function Object return Node_Id renames Result;
3009 -- Functions to create occurrences of the formal parameter names of the
3010 -- 'Read and 'Write attributes.
3012 Loc : Source_Ptr;
3013 -- Shared source location used by Add_{Read,Write}_Read_Attribute and
3014 -- their ancillary subroutines (set on entry by Add_RACW_Features).
3016 procedure Add_RAS_Access_TSS (N : Node_Id);
3017 -- Add a subprogram body for RAS Access TSS
3019 -------------------------------------
3020 -- Add_Obj_RPC_Receiver_Completion --
3021 -------------------------------------
3023 procedure Add_Obj_RPC_Receiver_Completion
3024 (Loc : Source_Ptr;
3025 Decls : List_Id;
3026 RPC_Receiver : Entity_Id;
3027 Stub_Elements : Stub_Structure)
3029 begin
3030 -- The RPC receiver body should not be the completion of the
3031 -- declaration recorded in the stub structure, because then the
3032 -- occurrences of the formal parameters within the body should refer
3033 -- to the entities from the declaration, not from the completion, to
3034 -- which we do not have easy access. Instead, the RPC receiver body
3035 -- acts as its own declaration, and the RPC receiver declaration is
3036 -- completed by a renaming-as-body.
3038 Append_To (Decls,
3039 Make_Subprogram_Renaming_Declaration (Loc,
3040 Specification =>
3041 Copy_Specification (Loc,
3042 Specification (Stub_Elements.RPC_Receiver_Decl)),
3043 Name => New_Occurrence_Of (RPC_Receiver, Loc)));
3044 end Add_Obj_RPC_Receiver_Completion;
3046 -----------------------
3047 -- Add_RACW_Features --
3048 -----------------------
3050 procedure Add_RACW_Features
3051 (RACW_Type : Entity_Id;
3052 Stub_Type : Entity_Id;
3053 Stub_Type_Access : Entity_Id;
3054 RPC_Receiver_Decl : Node_Id;
3055 Body_Decls : List_Id)
3057 RPC_Receiver : Node_Id;
3058 Is_RAS : constant Boolean := not Comes_From_Source (RACW_Type);
3060 begin
3061 Loc := Sloc (RACW_Type);
3063 if Is_RAS then
3065 -- For a RAS, the RPC receiver is that of the RCI unit, not that
3066 -- of the corresponding distributed object type. We retrieve its
3067 -- address from the local proxy object.
3069 RPC_Receiver := Make_Selected_Component (Loc,
3070 Prefix =>
3071 Unchecked_Convert_To (RTE (RE_RAS_Proxy_Type_Access), Object),
3072 Selector_Name => Make_Identifier (Loc, Name_Receiver));
3074 else
3075 RPC_Receiver := Make_Attribute_Reference (Loc,
3076 Prefix => New_Occurrence_Of (
3077 Defining_Unit_Name (Specification (RPC_Receiver_Decl)), Loc),
3078 Attribute_Name => Name_Address);
3079 end if;
3081 Add_RACW_Write_Attribute
3082 (RACW_Type,
3083 Stub_Type,
3084 Stub_Type_Access,
3085 RPC_Receiver,
3086 Body_Decls);
3088 Add_RACW_Read_Attribute
3089 (RACW_Type,
3090 Stub_Type,
3091 Stub_Type_Access,
3092 Body_Decls);
3093 end Add_RACW_Features;
3095 -----------------------------
3096 -- Add_RACW_Read_Attribute --
3097 -----------------------------
3099 procedure Add_RACW_Read_Attribute
3100 (RACW_Type : Entity_Id;
3101 Stub_Type : Entity_Id;
3102 Stub_Type_Access : Entity_Id;
3103 Body_Decls : List_Id)
3105 Proc_Decl : Node_Id;
3106 Attr_Decl : Node_Id;
3108 Body_Node : Node_Id;
3110 Statements : constant List_Id := New_List;
3111 Decls : List_Id;
3112 Local_Statements : List_Id;
3113 Remote_Statements : List_Id;
3114 -- Various parts of the procedure
3116 Pnam : constant Entity_Id := Make_Temporary (Loc, 'R');
3117 Asynchronous_Flag : constant Entity_Id :=
3118 Asynchronous_Flags_Table.Get (RACW_Type);
3119 pragma Assert (Present (Asynchronous_Flag));
3121 -- Prepare local identifiers
3123 Source_Partition : Entity_Id;
3124 Source_Receiver : Entity_Id;
3125 Source_Address : Entity_Id;
3126 Local_Stub : Entity_Id;
3127 Stubbed_Result : Entity_Id;
3129 -- Start of processing for Add_RACW_Read_Attribute
3131 begin
3132 Build_Stream_Procedure (Loc,
3133 RACW_Type, Body_Node, Pnam, Statements, Outp => True);
3134 Proc_Decl := Make_Subprogram_Declaration (Loc,
3135 Copy_Specification (Loc, Specification (Body_Node)));
3137 Attr_Decl :=
3138 Make_Attribute_Definition_Clause (Loc,
3139 Name => New_Occurrence_Of (RACW_Type, Loc),
3140 Chars => Name_Read,
3141 Expression =>
3142 New_Occurrence_Of (
3143 Defining_Unit_Name (Specification (Proc_Decl)), Loc));
3145 Insert_After (Declaration_Node (RACW_Type), Proc_Decl);
3146 Insert_After (Proc_Decl, Attr_Decl);
3148 if No (Body_Decls) then
3150 -- Case of processing an RACW type from another unit than the
3151 -- main one: do not generate a body.
3153 return;
3154 end if;
3156 -- Prepare local identifiers
3158 Source_Partition := Make_Temporary (Loc, 'P');
3159 Source_Receiver := Make_Temporary (Loc, 'S');
3160 Source_Address := Make_Temporary (Loc, 'P');
3161 Local_Stub := Make_Temporary (Loc, 'L');
3162 Stubbed_Result := Make_Temporary (Loc, 'S');
3164 -- Generate object declarations
3166 Decls := New_List (
3167 Make_Object_Declaration (Loc,
3168 Defining_Identifier => Source_Partition,
3169 Object_Definition =>
3170 New_Occurrence_Of (RTE (RE_Partition_ID), Loc)),
3172 Make_Object_Declaration (Loc,
3173 Defining_Identifier => Source_Receiver,
3174 Object_Definition =>
3175 New_Occurrence_Of (RTE (RE_Unsigned_64), Loc)),
3177 Make_Object_Declaration (Loc,
3178 Defining_Identifier => Source_Address,
3179 Object_Definition =>
3180 New_Occurrence_Of (RTE (RE_Unsigned_64), Loc)),
3182 Make_Object_Declaration (Loc,
3183 Defining_Identifier => Local_Stub,
3184 Aliased_Present => True,
3185 Object_Definition => New_Occurrence_Of (Stub_Type, Loc)),
3187 Make_Object_Declaration (Loc,
3188 Defining_Identifier => Stubbed_Result,
3189 Object_Definition =>
3190 New_Occurrence_Of (Stub_Type_Access, Loc),
3191 Expression =>
3192 Make_Attribute_Reference (Loc,
3193 Prefix =>
3194 New_Occurrence_Of (Local_Stub, Loc),
3195 Attribute_Name =>
3196 Name_Unchecked_Access)));
3198 -- Read the source Partition_ID and RPC_Receiver from incoming stream
3200 Append_List_To (Statements, New_List (
3201 Make_Attribute_Reference (Loc,
3202 Prefix =>
3203 New_Occurrence_Of (RTE (RE_Partition_ID), Loc),
3204 Attribute_Name => Name_Read,
3205 Expressions => New_List (
3206 Stream_Parameter,
3207 New_Occurrence_Of (Source_Partition, Loc))),
3209 Make_Attribute_Reference (Loc,
3210 Prefix =>
3211 New_Occurrence_Of (RTE (RE_Unsigned_64), Loc),
3212 Attribute_Name =>
3213 Name_Read,
3214 Expressions => New_List (
3215 Stream_Parameter,
3216 New_Occurrence_Of (Source_Receiver, Loc))),
3218 Make_Attribute_Reference (Loc,
3219 Prefix =>
3220 New_Occurrence_Of (RTE (RE_Unsigned_64), Loc),
3221 Attribute_Name =>
3222 Name_Read,
3223 Expressions => New_List (
3224 Stream_Parameter,
3225 New_Occurrence_Of (Source_Address, Loc)))));
3227 -- Build_Get_Unique_RP_Call needs the type of Stubbed_Result
3229 Set_Etype (Stubbed_Result, Stub_Type_Access);
3231 -- If the Address is Null_Address, then return a null object, unless
3232 -- RACW_Type is null-excluding, in which case unconditionally raise
3233 -- CONSTRAINT_ERROR instead.
3235 declare
3236 Zero_Statements : List_Id;
3237 -- Statements executed when a zero value is received
3239 begin
3240 if Can_Never_Be_Null (RACW_Type) then
3241 Zero_Statements := New_List (
3242 Make_Raise_Constraint_Error (Loc,
3243 Reason => CE_Null_Not_Allowed));
3244 else
3245 Zero_Statements := New_List (
3246 Make_Assignment_Statement (Loc,
3247 Name => Result,
3248 Expression => Make_Null (Loc)),
3249 Make_Simple_Return_Statement (Loc));
3250 end if;
3252 Append_To (Statements,
3253 Make_Implicit_If_Statement (RACW_Type,
3254 Condition =>
3255 Make_Op_Eq (Loc,
3256 Left_Opnd => New_Occurrence_Of (Source_Address, Loc),
3257 Right_Opnd => Make_Integer_Literal (Loc, Uint_0)),
3258 Then_Statements => Zero_Statements));
3259 end;
3261 -- If the RACW denotes an object created on the current partition,
3262 -- Local_Statements will be executed. The real object will be used.
3264 Local_Statements := New_List (
3265 Make_Assignment_Statement (Loc,
3266 Name => Result,
3267 Expression =>
3268 Unchecked_Convert_To (RACW_Type,
3269 OK_Convert_To (RTE (RE_Address),
3270 New_Occurrence_Of (Source_Address, Loc)))));
3272 -- If the object is located on another partition, then a stub object
3273 -- will be created with all the information needed to rebuild the
3274 -- real object at the other end.
3276 Remote_Statements := New_List (
3278 Make_Assignment_Statement (Loc,
3279 Name => Make_Selected_Component (Loc,
3280 Prefix => Stubbed_Result,
3281 Selector_Name => Name_Origin),
3282 Expression =>
3283 New_Occurrence_Of (Source_Partition, Loc)),
3285 Make_Assignment_Statement (Loc,
3286 Name => Make_Selected_Component (Loc,
3287 Prefix => Stubbed_Result,
3288 Selector_Name => Name_Receiver),
3289 Expression =>
3290 New_Occurrence_Of (Source_Receiver, Loc)),
3292 Make_Assignment_Statement (Loc,
3293 Name => Make_Selected_Component (Loc,
3294 Prefix => Stubbed_Result,
3295 Selector_Name => Name_Addr),
3296 Expression =>
3297 New_Occurrence_Of (Source_Address, Loc)));
3299 Append_To (Remote_Statements,
3300 Make_Assignment_Statement (Loc,
3301 Name => Make_Selected_Component (Loc,
3302 Prefix => Stubbed_Result,
3303 Selector_Name => Name_Asynchronous),
3304 Expression =>
3305 New_Occurrence_Of (Asynchronous_Flag, Loc)));
3307 Append_List_To (Remote_Statements,
3308 Build_Get_Unique_RP_Call (Loc, Stubbed_Result, Stub_Type));
3309 -- ??? Issue with asynchronous calls here: the Asynchronous flag is
3310 -- set on the stub type if, and only if, the RACW type has a pragma
3311 -- Asynchronous. This is incorrect for RACWs that implement RAS
3312 -- types, because in that case the /designated subprogram/ (not the
3313 -- type) might be asynchronous, and that causes the stub to need to
3314 -- be asynchronous too. A solution is to transport a RAS as a struct
3315 -- containing a RACW and an asynchronous flag, and to properly alter
3316 -- the Asynchronous component in the stub type in the RAS's Input
3317 -- TSS.
3319 Append_To (Remote_Statements,
3320 Make_Assignment_Statement (Loc,
3321 Name => Result,
3322 Expression => Unchecked_Convert_To (RACW_Type,
3323 New_Occurrence_Of (Stubbed_Result, Loc))));
3325 -- Distinguish between the local and remote cases, and execute the
3326 -- appropriate piece of code.
3328 Append_To (Statements,
3329 Make_Implicit_If_Statement (RACW_Type,
3330 Condition =>
3331 Make_Op_Eq (Loc,
3332 Left_Opnd =>
3333 Make_Function_Call (Loc,
3334 Name => New_Occurrence_Of (
3335 RTE (RE_Get_Local_Partition_Id), Loc)),
3336 Right_Opnd => New_Occurrence_Of (Source_Partition, Loc)),
3337 Then_Statements => Local_Statements,
3338 Else_Statements => Remote_Statements));
3340 Set_Declarations (Body_Node, Decls);
3341 Append_To (Body_Decls, Body_Node);
3342 end Add_RACW_Read_Attribute;
3344 ------------------------------
3345 -- Add_RACW_Write_Attribute --
3346 ------------------------------
3348 procedure Add_RACW_Write_Attribute
3349 (RACW_Type : Entity_Id;
3350 Stub_Type : Entity_Id;
3351 Stub_Type_Access : Entity_Id;
3352 RPC_Receiver : Node_Id;
3353 Body_Decls : List_Id)
3355 Body_Node : Node_Id;
3356 Proc_Decl : Node_Id;
3357 Attr_Decl : Node_Id;
3359 Statements : constant List_Id := New_List;
3360 Local_Statements : List_Id;
3361 Remote_Statements : List_Id;
3362 Null_Statements : List_Id;
3364 Pnam : constant Entity_Id := Make_Temporary (Loc, 'R');
3366 begin
3367 Build_Stream_Procedure
3368 (Loc, RACW_Type, Body_Node, Pnam, Statements, Outp => False);
3370 Proc_Decl := Make_Subprogram_Declaration (Loc,
3371 Copy_Specification (Loc, Specification (Body_Node)));
3373 Attr_Decl :=
3374 Make_Attribute_Definition_Clause (Loc,
3375 Name => New_Occurrence_Of (RACW_Type, Loc),
3376 Chars => Name_Write,
3377 Expression =>
3378 New_Occurrence_Of (
3379 Defining_Unit_Name (Specification (Proc_Decl)), Loc));
3381 Insert_After (Declaration_Node (RACW_Type), Proc_Decl);
3382 Insert_After (Proc_Decl, Attr_Decl);
3384 if No (Body_Decls) then
3385 return;
3386 end if;
3388 -- Build the code fragment corresponding to the marshalling of a
3389 -- local object.
3391 Local_Statements := New_List (
3393 Pack_Entity_Into_Stream_Access (Loc,
3394 Stream => Stream_Parameter,
3395 Object => RTE (RE_Get_Local_Partition_Id)),
3397 Pack_Node_Into_Stream_Access (Loc,
3398 Stream => Stream_Parameter,
3399 Object => OK_Convert_To (RTE (RE_Unsigned_64), RPC_Receiver),
3400 Etyp => RTE (RE_Unsigned_64)),
3402 Pack_Node_Into_Stream_Access (Loc,
3403 Stream => Stream_Parameter,
3404 Object => OK_Convert_To (RTE (RE_Unsigned_64),
3405 Make_Attribute_Reference (Loc,
3406 Prefix =>
3407 Make_Explicit_Dereference (Loc,
3408 Prefix => Object),
3409 Attribute_Name => Name_Address)),
3410 Etyp => RTE (RE_Unsigned_64)));
3412 -- Build the code fragment corresponding to the marshalling of
3413 -- a remote object.
3415 Remote_Statements := New_List (
3416 Pack_Node_Into_Stream_Access (Loc,
3417 Stream => Stream_Parameter,
3418 Object =>
3419 Make_Selected_Component (Loc,
3420 Prefix =>
3421 Unchecked_Convert_To (Stub_Type_Access, Object),
3422 Selector_Name => Make_Identifier (Loc, Name_Origin)),
3423 Etyp => RTE (RE_Partition_ID)),
3425 Pack_Node_Into_Stream_Access (Loc,
3426 Stream => Stream_Parameter,
3427 Object =>
3428 Make_Selected_Component (Loc,
3429 Prefix =>
3430 Unchecked_Convert_To (Stub_Type_Access, Object),
3431 Selector_Name => Make_Identifier (Loc, Name_Receiver)),
3432 Etyp => RTE (RE_Unsigned_64)),
3434 Pack_Node_Into_Stream_Access (Loc,
3435 Stream => Stream_Parameter,
3436 Object =>
3437 Make_Selected_Component (Loc,
3438 Prefix =>
3439 Unchecked_Convert_To (Stub_Type_Access, Object),
3440 Selector_Name => Make_Identifier (Loc, Name_Addr)),
3441 Etyp => RTE (RE_Unsigned_64)));
3443 -- Build code fragment corresponding to marshalling of a null object
3445 Null_Statements := New_List (
3447 Pack_Entity_Into_Stream_Access (Loc,
3448 Stream => Stream_Parameter,
3449 Object => RTE (RE_Get_Local_Partition_Id)),
3451 Pack_Node_Into_Stream_Access (Loc,
3452 Stream => Stream_Parameter,
3453 Object => OK_Convert_To (RTE (RE_Unsigned_64), RPC_Receiver),
3454 Etyp => RTE (RE_Unsigned_64)),
3456 Pack_Node_Into_Stream_Access (Loc,
3457 Stream => Stream_Parameter,
3458 Object => Make_Integer_Literal (Loc, Uint_0),
3459 Etyp => RTE (RE_Unsigned_64)));
3461 Append_To (Statements,
3462 Make_Implicit_If_Statement (RACW_Type,
3463 Condition =>
3464 Make_Op_Eq (Loc,
3465 Left_Opnd => Object,
3466 Right_Opnd => Make_Null (Loc)),
3468 Then_Statements => Null_Statements,
3470 Elsif_Parts => New_List (
3471 Make_Elsif_Part (Loc,
3472 Condition =>
3473 Make_Op_Eq (Loc,
3474 Left_Opnd =>
3475 Make_Attribute_Reference (Loc,
3476 Prefix => Object,
3477 Attribute_Name => Name_Tag),
3479 Right_Opnd =>
3480 Make_Attribute_Reference (Loc,
3481 Prefix => New_Occurrence_Of (Stub_Type, Loc),
3482 Attribute_Name => Name_Tag)),
3483 Then_Statements => Remote_Statements)),
3484 Else_Statements => Local_Statements));
3486 Append_To (Body_Decls, Body_Node);
3487 end Add_RACW_Write_Attribute;
3489 ------------------------
3490 -- Add_RAS_Access_TSS --
3491 ------------------------
3493 procedure Add_RAS_Access_TSS (N : Node_Id) is
3494 Loc : constant Source_Ptr := Sloc (N);
3496 Ras_Type : constant Entity_Id := Defining_Identifier (N);
3497 Fat_Type : constant Entity_Id := Equivalent_Type (Ras_Type);
3498 -- Ras_Type is the access to subprogram type while Fat_Type is the
3499 -- corresponding record type.
3501 RACW_Type : constant Entity_Id :=
3502 Underlying_RACW_Type (Ras_Type);
3503 Desig : constant Entity_Id :=
3504 Etype (Designated_Type (RACW_Type));
3506 Stub_Elements : constant Stub_Structure :=
3507 Stubs_Table.Get (Desig);
3508 pragma Assert (Stub_Elements /= Empty_Stub_Structure);
3510 Proc : constant Entity_Id :=
3511 Make_Defining_Identifier (Loc,
3512 Chars => Make_TSS_Name (Ras_Type, TSS_RAS_Access));
3514 Proc_Spec : Node_Id;
3516 -- Formal parameters
3518 Package_Name : constant Entity_Id :=
3519 Make_Defining_Identifier (Loc,
3520 Chars => Name_P);
3521 -- Target package
3523 Subp_Id : constant Entity_Id :=
3524 Make_Defining_Identifier (Loc,
3525 Chars => Name_S);
3526 -- Target subprogram
3528 Asynch_P : constant Entity_Id :=
3529 Make_Defining_Identifier (Loc,
3530 Chars => Name_Asynchronous);
3531 -- Is the procedure to which the 'Access applies asynchronous?
3533 All_Calls_Remote : constant Entity_Id :=
3534 Make_Defining_Identifier (Loc,
3535 Chars => Name_All_Calls_Remote);
3536 -- True if an All_Calls_Remote pragma applies to the RCI unit
3537 -- that contains the subprogram.
3539 -- Common local variables
3541 Proc_Decls : List_Id;
3542 Proc_Statements : List_Id;
3544 Origin : constant Entity_Id := Make_Temporary (Loc, 'P');
3546 -- Additional local variables for the local case
3548 Proxy_Addr : constant Entity_Id := Make_Temporary (Loc, 'P');
3550 -- Additional local variables for the remote case
3552 Local_Stub : constant Entity_Id := Make_Temporary (Loc, 'L');
3553 Stub_Ptr : constant Entity_Id := Make_Temporary (Loc, 'S');
3555 function Set_Field
3556 (Field_Name : Name_Id;
3557 Value : Node_Id) return Node_Id;
3558 -- Construct an assignment that sets the named component in the
3559 -- returned record
3561 ---------------
3562 -- Set_Field --
3563 ---------------
3565 function Set_Field
3566 (Field_Name : Name_Id;
3567 Value : Node_Id) return Node_Id
3569 begin
3570 return
3571 Make_Assignment_Statement (Loc,
3572 Name =>
3573 Make_Selected_Component (Loc,
3574 Prefix => Stub_Ptr,
3575 Selector_Name => Field_Name),
3576 Expression => Value);
3577 end Set_Field;
3579 -- Start of processing for Add_RAS_Access_TSS
3581 begin
3582 Proc_Decls := New_List (
3584 -- Common declarations
3586 Make_Object_Declaration (Loc,
3587 Defining_Identifier => Origin,
3588 Constant_Present => True,
3589 Object_Definition =>
3590 New_Occurrence_Of (RTE (RE_Partition_ID), Loc),
3591 Expression =>
3592 Make_Function_Call (Loc,
3593 Name =>
3594 New_Occurrence_Of (RTE (RE_Get_Active_Partition_Id), Loc),
3595 Parameter_Associations => New_List (
3596 New_Occurrence_Of (Package_Name, Loc)))),
3598 -- Declaration use only in the local case: proxy address
3600 Make_Object_Declaration (Loc,
3601 Defining_Identifier => Proxy_Addr,
3602 Object_Definition =>
3603 New_Occurrence_Of (RTE (RE_Unsigned_64), Loc)),
3605 -- Declarations used only in the remote case: stub object and
3606 -- stub pointer.
3608 Make_Object_Declaration (Loc,
3609 Defining_Identifier => Local_Stub,
3610 Aliased_Present => True,
3611 Object_Definition =>
3612 New_Occurrence_Of (Stub_Elements.Stub_Type, Loc)),
3614 Make_Object_Declaration (Loc,
3615 Defining_Identifier =>
3616 Stub_Ptr,
3617 Object_Definition =>
3618 New_Occurrence_Of (Stub_Elements.Stub_Type_Access, Loc),
3619 Expression =>
3620 Make_Attribute_Reference (Loc,
3621 Prefix => New_Occurrence_Of (Local_Stub, Loc),
3622 Attribute_Name => Name_Unchecked_Access)));
3624 Set_Etype (Stub_Ptr, Stub_Elements.Stub_Type_Access);
3626 -- Build_Get_Unique_RP_Call needs above information
3628 -- Note: Here we assume that the Fat_Type is a record
3629 -- containing just a pointer to a proxy or stub object.
3631 Proc_Statements := New_List (
3633 -- Generate:
3635 -- Get_RAS_Info (Pkg, Subp, PA);
3636 -- if Origin = Local_Partition_Id
3637 -- and then not All_Calls_Remote
3638 -- then
3639 -- return Fat_Type!(PA);
3640 -- end if;
3642 Make_Procedure_Call_Statement (Loc,
3643 Name => New_Occurrence_Of (RTE (RE_Get_RAS_Info), Loc),
3644 Parameter_Associations => New_List (
3645 New_Occurrence_Of (Package_Name, Loc),
3646 New_Occurrence_Of (Subp_Id, Loc),
3647 New_Occurrence_Of (Proxy_Addr, Loc))),
3649 Make_Implicit_If_Statement (N,
3650 Condition =>
3651 Make_And_Then (Loc,
3652 Left_Opnd =>
3653 Make_Op_Eq (Loc,
3654 Left_Opnd =>
3655 New_Occurrence_Of (Origin, Loc),
3656 Right_Opnd =>
3657 Make_Function_Call (Loc,
3658 New_Occurrence_Of (
3659 RTE (RE_Get_Local_Partition_Id), Loc))),
3661 Right_Opnd =>
3662 Make_Op_Not (Loc,
3663 New_Occurrence_Of (All_Calls_Remote, Loc))),
3665 Then_Statements => New_List (
3666 Make_Simple_Return_Statement (Loc,
3667 Unchecked_Convert_To (Fat_Type,
3668 OK_Convert_To (RTE (RE_Address),
3669 New_Occurrence_Of (Proxy_Addr, Loc)))))),
3671 Set_Field (Name_Origin,
3672 New_Occurrence_Of (Origin, Loc)),
3674 Set_Field (Name_Receiver,
3675 Make_Function_Call (Loc,
3676 Name =>
3677 New_Occurrence_Of (RTE (RE_Get_RCI_Package_Receiver), Loc),
3678 Parameter_Associations => New_List (
3679 New_Occurrence_Of (Package_Name, Loc)))),
3681 Set_Field (Name_Addr, New_Occurrence_Of (Proxy_Addr, Loc)),
3683 -- E.4.1(9) A remote call is asynchronous if it is a call to
3684 -- a procedure or a call through a value of an access-to-procedure
3685 -- type to which a pragma Asynchronous applies.
3687 -- Asynch_P is true when the procedure is asynchronous;
3688 -- Asynch_T is true when the type is asynchronous.
3690 Set_Field (Name_Asynchronous,
3691 Make_Or_Else (Loc,
3692 New_Occurrence_Of (Asynch_P, Loc),
3693 New_Occurrence_Of (Boolean_Literals (
3694 Is_Asynchronous (Ras_Type)), Loc))));
3696 Append_List_To (Proc_Statements,
3697 Build_Get_Unique_RP_Call
3698 (Loc, Stub_Ptr, Stub_Elements.Stub_Type));
3700 -- Return the newly created value
3702 Append_To (Proc_Statements,
3703 Make_Simple_Return_Statement (Loc,
3704 Expression =>
3705 Unchecked_Convert_To (Fat_Type,
3706 New_Occurrence_Of (Stub_Ptr, Loc))));
3708 Proc_Spec :=
3709 Make_Function_Specification (Loc,
3710 Defining_Unit_Name => Proc,
3711 Parameter_Specifications => New_List (
3712 Make_Parameter_Specification (Loc,
3713 Defining_Identifier => Package_Name,
3714 Parameter_Type =>
3715 New_Occurrence_Of (Standard_String, Loc)),
3717 Make_Parameter_Specification (Loc,
3718 Defining_Identifier => Subp_Id,
3719 Parameter_Type =>
3720 New_Occurrence_Of (RTE (RE_Subprogram_Id), Loc)),
3722 Make_Parameter_Specification (Loc,
3723 Defining_Identifier => Asynch_P,
3724 Parameter_Type =>
3725 New_Occurrence_Of (Standard_Boolean, Loc)),
3727 Make_Parameter_Specification (Loc,
3728 Defining_Identifier => All_Calls_Remote,
3729 Parameter_Type =>
3730 New_Occurrence_Of (Standard_Boolean, Loc))),
3732 Result_Definition =>
3733 New_Occurrence_Of (Fat_Type, Loc));
3735 -- Set the kind and return type of the function to prevent
3736 -- ambiguities between Ras_Type and Fat_Type in subsequent analysis.
3738 Set_Ekind (Proc, E_Function);
3739 Set_Etype (Proc, Fat_Type);
3741 Discard_Node (
3742 Make_Subprogram_Body (Loc,
3743 Specification => Proc_Spec,
3744 Declarations => Proc_Decls,
3745 Handled_Statement_Sequence =>
3746 Make_Handled_Sequence_Of_Statements (Loc,
3747 Statements => Proc_Statements)));
3749 Set_TSS (Fat_Type, Proc);
3750 end Add_RAS_Access_TSS;
3752 -----------------------
3753 -- Add_RAST_Features --
3754 -----------------------
3756 procedure Add_RAST_Features
3757 (Vis_Decl : Node_Id;
3758 RAS_Type : Entity_Id)
3760 pragma Unreferenced (RAS_Type);
3761 begin
3762 Add_RAS_Access_TSS (Vis_Decl);
3763 end Add_RAST_Features;
3765 -----------------------------------------
3766 -- Add_Receiving_Stubs_To_Declarations --
3767 -----------------------------------------
3769 procedure Add_Receiving_Stubs_To_Declarations
3770 (Pkg_Spec : Node_Id;
3771 Decls : List_Id;
3772 Stmts : List_Id)
3774 Loc : constant Source_Ptr := Sloc (Pkg_Spec);
3776 Request_Parameter : Node_Id;
3778 Pkg_RPC_Receiver : constant Entity_Id :=
3779 Make_Temporary (Loc, 'H');
3780 Pkg_RPC_Receiver_Statements : List_Id;
3781 Pkg_RPC_Receiver_Cases : constant List_Id := New_List;
3782 Pkg_RPC_Receiver_Body : Node_Id;
3783 -- A Pkg_RPC_Receiver is built to decode the request
3785 Lookup_RAS : Node_Id;
3786 Lookup_RAS_Info : constant Entity_Id := Make_Temporary (Loc, 'R');
3787 -- A remote subprogram is created to allow peers to look up RAS
3788 -- information using subprogram ids.
3790 Subp_Id : Entity_Id;
3791 Subp_Index : Entity_Id;
3792 -- Subprogram_Id as read from the incoming stream
3794 Current_Subp_Number : Int := First_RCI_Subprogram_Id;
3795 Current_Stubs : Node_Id;
3797 Subp_Info_Array : constant Entity_Id := Make_Temporary (Loc, 'I');
3798 Subp_Info_List : constant List_Id := New_List;
3800 Register_Pkg_Actuals : constant List_Id := New_List;
3802 All_Calls_Remote_E : Entity_Id;
3803 Proxy_Object_Addr : Entity_Id;
3805 procedure Append_Stubs_To
3806 (RPC_Receiver_Cases : List_Id;
3807 Stubs : Node_Id;
3808 Subprogram_Number : Int);
3809 -- Add one case to the specified RPC receiver case list
3810 -- associating Subprogram_Number with the subprogram declared
3811 -- by Declaration, for which we have receiving stubs in Stubs.
3813 procedure Visit_Subprogram (Decl : Node_Id);
3814 -- Generate receiving stub for one remote subprogram
3816 ---------------------
3817 -- Append_Stubs_To --
3818 ---------------------
3820 procedure Append_Stubs_To
3821 (RPC_Receiver_Cases : List_Id;
3822 Stubs : Node_Id;
3823 Subprogram_Number : Int)
3825 begin
3826 Append_To (RPC_Receiver_Cases,
3827 Make_Case_Statement_Alternative (Loc,
3828 Discrete_Choices =>
3829 New_List (Make_Integer_Literal (Loc, Subprogram_Number)),
3830 Statements =>
3831 New_List (
3832 Make_Procedure_Call_Statement (Loc,
3833 Name =>
3834 New_Occurrence_Of (Defining_Entity (Stubs), Loc),
3835 Parameter_Associations => New_List (
3836 New_Occurrence_Of (Request_Parameter, Loc))))));
3837 end Append_Stubs_To;
3839 ----------------------
3840 -- Visit_Subprogram --
3841 ----------------------
3843 procedure Visit_Subprogram (Decl : Node_Id) is
3844 Loc : constant Source_Ptr := Sloc (Decl);
3845 Spec : constant Node_Id := Specification (Decl);
3846 Subp_Def : constant Entity_Id := Defining_Unit_Name (Spec);
3848 Subp_Val : String_Id;
3849 pragma Warnings (Off, Subp_Val);
3851 begin
3852 -- Disable expansion of stubs if serious errors have been
3853 -- diagnosed, because otherwise some illegal remote subprogram
3854 -- declarations could cause cascaded errors in stubs.
3856 if Serious_Errors_Detected /= 0 then
3857 return;
3858 end if;
3860 -- Build receiving stub
3862 Current_Stubs :=
3863 Build_Subprogram_Receiving_Stubs
3864 (Vis_Decl => Decl,
3865 Asynchronous =>
3866 Nkind (Spec) = N_Procedure_Specification
3867 and then Is_Asynchronous (Subp_Def));
3869 Append_To (Decls, Current_Stubs);
3870 Analyze (Current_Stubs);
3872 -- Build RAS proxy
3874 Add_RAS_Proxy_And_Analyze (Decls,
3875 Vis_Decl => Decl,
3876 All_Calls_Remote_E => All_Calls_Remote_E,
3877 Proxy_Object_Addr => Proxy_Object_Addr);
3879 -- Compute distribution identifier
3881 Assign_Subprogram_Identifier
3882 (Subp_Def, Current_Subp_Number, Subp_Val);
3884 pragma Assert (Current_Subp_Number = Get_Subprogram_Id (Subp_Def));
3886 -- Add subprogram descriptor (RCI_Subp_Info) to the subprograms
3887 -- table for this receiver. This aggregate must be kept consistent
3888 -- with the declaration of RCI_Subp_Info in
3889 -- System.Partition_Interface.
3891 Append_To (Subp_Info_List,
3892 Make_Component_Association (Loc,
3893 Choices => New_List (
3894 Make_Integer_Literal (Loc, Current_Subp_Number)),
3896 Expression =>
3897 Make_Aggregate (Loc,
3898 Component_Associations => New_List (
3900 -- Addr =>
3902 Make_Component_Association (Loc,
3903 Choices =>
3904 New_List (Make_Identifier (Loc, Name_Addr)),
3905 Expression =>
3906 New_Occurrence_Of (Proxy_Object_Addr, Loc))))));
3908 Append_Stubs_To (Pkg_RPC_Receiver_Cases,
3909 Stubs => Current_Stubs,
3910 Subprogram_Number => Current_Subp_Number);
3912 Current_Subp_Number := Current_Subp_Number + 1;
3913 end Visit_Subprogram;
3915 procedure Visit_Spec is new Build_Package_Stubs (Visit_Subprogram);
3917 -- Start of processing for Add_Receiving_Stubs_To_Declarations
3919 begin
3920 -- Building receiving stubs consist in several operations:
3922 -- - a package RPC receiver must be built. This subprogram
3923 -- will get a Subprogram_Id from the incoming stream
3924 -- and will dispatch the call to the right subprogram;
3926 -- - a receiving stub for each subprogram visible in the package
3927 -- spec. This stub will read all the parameters from the stream,
3928 -- and put the result as well as the exception occurrence in the
3929 -- output stream;
3931 -- - a dummy package with an empty spec and a body made of an
3932 -- elaboration part, whose job is to register the receiving
3933 -- part of this RCI package on the name server. This is done
3934 -- by calling System.Partition_Interface.Register_Receiving_Stub.
3936 Build_RPC_Receiver_Body (
3937 RPC_Receiver => Pkg_RPC_Receiver,
3938 Request => Request_Parameter,
3939 Subp_Id => Subp_Id,
3940 Subp_Index => Subp_Index,
3941 Stmts => Pkg_RPC_Receiver_Statements,
3942 Decl => Pkg_RPC_Receiver_Body);
3943 pragma Assert (Subp_Id = Subp_Index);
3945 -- A null subp_id denotes a call through a RAS, in which case the
3946 -- next Uint_64 element in the stream is the address of the local
3947 -- proxy object, from which we can retrieve the actual subprogram id.
3949 Append_To (Pkg_RPC_Receiver_Statements,
3950 Make_Implicit_If_Statement (Pkg_Spec,
3951 Condition =>
3952 Make_Op_Eq (Loc,
3953 New_Occurrence_Of (Subp_Id, Loc),
3954 Make_Integer_Literal (Loc, 0)),
3956 Then_Statements => New_List (
3957 Make_Assignment_Statement (Loc,
3958 Name =>
3959 New_Occurrence_Of (Subp_Id, Loc),
3961 Expression =>
3962 Make_Selected_Component (Loc,
3963 Prefix =>
3964 Unchecked_Convert_To (RTE (RE_RAS_Proxy_Type_Access),
3965 OK_Convert_To (RTE (RE_Address),
3966 Make_Attribute_Reference (Loc,
3967 Prefix =>
3968 New_Occurrence_Of (RTE (RE_Unsigned_64), Loc),
3969 Attribute_Name =>
3970 Name_Input,
3971 Expressions => New_List (
3972 Make_Selected_Component (Loc,
3973 Prefix => Request_Parameter,
3974 Selector_Name => Name_Params))))),
3976 Selector_Name => Make_Identifier (Loc, Name_Subp_Id))))));
3978 -- Build a subprogram for RAS information lookups
3980 Lookup_RAS :=
3981 Make_Subprogram_Declaration (Loc,
3982 Specification =>
3983 Make_Function_Specification (Loc,
3984 Defining_Unit_Name =>
3985 Lookup_RAS_Info,
3986 Parameter_Specifications => New_List (
3987 Make_Parameter_Specification (Loc,
3988 Defining_Identifier =>
3989 Make_Defining_Identifier (Loc, Name_Subp_Id),
3990 In_Present =>
3991 True,
3992 Parameter_Type =>
3993 New_Occurrence_Of (RTE (RE_Subprogram_Id), Loc))),
3994 Result_Definition =>
3995 New_Occurrence_Of (RTE (RE_Unsigned_64), Loc)));
3996 Append_To (Decls, Lookup_RAS);
3997 Analyze (Lookup_RAS);
3999 Current_Stubs := Build_Subprogram_Receiving_Stubs
4000 (Vis_Decl => Lookup_RAS,
4001 Asynchronous => False);
4002 Append_To (Decls, Current_Stubs);
4003 Analyze (Current_Stubs);
4005 Append_Stubs_To (Pkg_RPC_Receiver_Cases,
4006 Stubs => Current_Stubs,
4007 Subprogram_Number => 1);
4009 -- For each subprogram, the receiving stub will be built and a
4010 -- case statement will be made on the Subprogram_Id to dispatch
4011 -- to the right subprogram.
4013 All_Calls_Remote_E :=
4014 Boolean_Literals
4015 (Has_All_Calls_Remote (Defining_Entity (Pkg_Spec)));
4017 Overload_Counter_Table.Reset;
4019 Visit_Spec (Pkg_Spec);
4021 -- If we receive an invalid Subprogram_Id, it is best to do nothing
4022 -- rather than raising an exception since we do not want someone
4023 -- to crash a remote partition by sending invalid subprogram ids.
4024 -- This is consistent with the other parts of the case statement
4025 -- since even in presence of incorrect parameters in the stream,
4026 -- every exception will be caught and (if the subprogram is not an
4027 -- APC) put into the result stream and sent away.
4029 Append_To (Pkg_RPC_Receiver_Cases,
4030 Make_Case_Statement_Alternative (Loc,
4031 Discrete_Choices => New_List (Make_Others_Choice (Loc)),
4032 Statements => New_List (Make_Null_Statement (Loc))));
4034 Append_To (Pkg_RPC_Receiver_Statements,
4035 Make_Case_Statement (Loc,
4036 Expression => New_Occurrence_Of (Subp_Id, Loc),
4037 Alternatives => Pkg_RPC_Receiver_Cases));
4039 Append_To (Decls,
4040 Make_Object_Declaration (Loc,
4041 Defining_Identifier => Subp_Info_Array,
4042 Constant_Present => True,
4043 Aliased_Present => True,
4044 Object_Definition =>
4045 Make_Subtype_Indication (Loc,
4046 Subtype_Mark =>
4047 New_Occurrence_Of (RTE (RE_RCI_Subp_Info_Array), Loc),
4048 Constraint =>
4049 Make_Index_Or_Discriminant_Constraint (Loc,
4050 New_List (
4051 Make_Range (Loc,
4052 Low_Bound => Make_Integer_Literal (Loc,
4053 First_RCI_Subprogram_Id),
4054 High_Bound =>
4055 Make_Integer_Literal (Loc,
4056 Intval =>
4057 First_RCI_Subprogram_Id
4058 + List_Length (Subp_Info_List) - 1)))))));
4060 -- For a degenerate RCI with no visible subprograms, Subp_Info_List
4061 -- has zero length, and the declaration is for an empty array, in
4062 -- which case no initialization aggregate must be generated.
4064 if Present (First (Subp_Info_List)) then
4065 Set_Expression (Last (Decls),
4066 Make_Aggregate (Loc,
4067 Component_Associations => Subp_Info_List));
4069 -- No initialization provided: remove CONSTANT so that the
4070 -- declaration is not an incomplete deferred constant.
4072 else
4073 Set_Constant_Present (Last (Decls), False);
4074 end if;
4076 Analyze (Last (Decls));
4078 declare
4079 Subp_Info_Addr : Node_Id;
4080 -- Return statement for Lookup_RAS_Info: address of the subprogram
4081 -- information record for the requested subprogram id.
4083 begin
4084 if Present (First (Subp_Info_List)) then
4085 Subp_Info_Addr :=
4086 Make_Selected_Component (Loc,
4087 Prefix =>
4088 Make_Indexed_Component (Loc,
4089 Prefix => New_Occurrence_Of (Subp_Info_Array, Loc),
4090 Expressions => New_List (
4091 Convert_To (Standard_Integer,
4092 Make_Identifier (Loc, Name_Subp_Id)))),
4093 Selector_Name => Make_Identifier (Loc, Name_Addr));
4095 -- Case of no visible subprogram: just raise Constraint_Error, we
4096 -- know for sure we got junk from a remote partition.
4098 else
4099 Subp_Info_Addr :=
4100 Make_Raise_Constraint_Error (Loc,
4101 Reason => CE_Range_Check_Failed);
4102 Set_Etype (Subp_Info_Addr, RTE (RE_Unsigned_64));
4103 end if;
4105 Append_To (Decls,
4106 Make_Subprogram_Body (Loc,
4107 Specification =>
4108 Copy_Specification (Loc, Parent (Lookup_RAS_Info)),
4109 Declarations => No_List,
4110 Handled_Statement_Sequence =>
4111 Make_Handled_Sequence_Of_Statements (Loc,
4112 Statements => New_List (
4113 Make_Simple_Return_Statement (Loc,
4114 Expression =>
4115 OK_Convert_To
4116 (RTE (RE_Unsigned_64), Subp_Info_Addr))))));
4117 end;
4119 Analyze (Last (Decls));
4121 Append_To (Decls, Pkg_RPC_Receiver_Body);
4122 Analyze (Last (Decls));
4124 -- Name
4126 Append_To (Register_Pkg_Actuals,
4127 Make_String_Literal (Loc,
4128 Strval =>
4129 Fully_Qualified_Name_String
4130 (Defining_Entity (Pkg_Spec), Append_NUL => False)));
4132 -- Receiver
4134 Append_To (Register_Pkg_Actuals,
4135 Make_Attribute_Reference (Loc,
4136 Prefix => New_Occurrence_Of (Pkg_RPC_Receiver, Loc),
4137 Attribute_Name => Name_Unrestricted_Access));
4139 -- Version
4141 Append_To (Register_Pkg_Actuals,
4142 Make_Attribute_Reference (Loc,
4143 Prefix =>
4144 New_Occurrence_Of (Defining_Entity (Pkg_Spec), Loc),
4145 Attribute_Name => Name_Version));
4147 -- Subp_Info
4149 Append_To (Register_Pkg_Actuals,
4150 Make_Attribute_Reference (Loc,
4151 Prefix => New_Occurrence_Of (Subp_Info_Array, Loc),
4152 Attribute_Name => Name_Address));
4154 -- Subp_Info_Len
4156 Append_To (Register_Pkg_Actuals,
4157 Make_Attribute_Reference (Loc,
4158 Prefix => New_Occurrence_Of (Subp_Info_Array, Loc),
4159 Attribute_Name => Name_Length));
4161 -- Generate the call
4163 Append_To (Stmts,
4164 Make_Procedure_Call_Statement (Loc,
4165 Name =>
4166 New_Occurrence_Of (RTE (RE_Register_Receiving_Stub), Loc),
4167 Parameter_Associations => Register_Pkg_Actuals));
4168 Analyze (Last (Stmts));
4169 end Add_Receiving_Stubs_To_Declarations;
4171 ---------------------------------
4172 -- Build_General_Calling_Stubs --
4173 ---------------------------------
4175 procedure Build_General_Calling_Stubs
4176 (Decls : List_Id;
4177 Statements : List_Id;
4178 Target_Partition : Entity_Id;
4179 Target_RPC_Receiver : Node_Id;
4180 Subprogram_Id : Node_Id;
4181 Asynchronous : Node_Id := Empty;
4182 Is_Known_Asynchronous : Boolean := False;
4183 Is_Known_Non_Asynchronous : Boolean := False;
4184 Is_Function : Boolean;
4185 Spec : Node_Id;
4186 Stub_Type : Entity_Id := Empty;
4187 RACW_Type : Entity_Id := Empty;
4188 Nod : Node_Id)
4190 Loc : constant Source_Ptr := Sloc (Nod);
4192 Stream_Parameter : Node_Id;
4193 -- Name of the stream used to transmit parameters to the remote
4194 -- package.
4196 Result_Parameter : Node_Id;
4197 -- Name of the result parameter (in non-APC cases) which get the
4198 -- result of the remote subprogram.
4200 Exception_Return_Parameter : Node_Id;
4201 -- Name of the parameter which will hold the exception sent by the
4202 -- remote subprogram.
4204 Current_Parameter : Node_Id;
4205 -- Current parameter being handled
4207 Ordered_Parameters_List : constant List_Id :=
4208 Build_Ordered_Parameters_List (Spec);
4210 Asynchronous_Statements : List_Id := No_List;
4211 Non_Asynchronous_Statements : List_Id := No_List;
4212 -- Statements specifics to the Asynchronous/Non-Asynchronous cases
4214 Extra_Formal_Statements : constant List_Id := New_List;
4215 -- List of statements for extra formal parameters. It will appear
4216 -- after the regular statements for writing out parameters.
4218 pragma Unreferenced (RACW_Type);
4219 -- Used only for the PolyORB case
4221 begin
4222 -- The general form of a calling stub for a given subprogram is:
4224 -- procedure X (...) is P : constant Partition_ID :=
4225 -- RCI_Cache.Get_Active_Partition_ID; Stream, Result : aliased
4226 -- System.RPC.Params_Stream_Type (0); begin
4227 -- Put_Package_RPC_Receiver_In_Stream; (the package RPC receiver
4228 -- comes from RCI_Cache.Get_RCI_Package_Receiver)
4229 -- Put_Subprogram_Id_In_Stream; Put_Parameters_In_Stream; Do_RPC
4230 -- (Stream, Result); Read_Exception_Occurrence_From_Result;
4231 -- Raise_It;
4232 -- Read_Out_Parameters_And_Function_Return_From_Stream; end X;
4234 -- There are some variations: Do_APC is called for an asynchronous
4235 -- procedure and the part after the call is completely ommitted as
4236 -- well as the declaration of Result. For a function call, 'Input is
4237 -- always used to read the result even if it is constrained.
4239 Stream_Parameter := Make_Temporary (Loc, 'S');
4241 Append_To (Decls,
4242 Make_Object_Declaration (Loc,
4243 Defining_Identifier => Stream_Parameter,
4244 Aliased_Present => True,
4245 Object_Definition =>
4246 Make_Subtype_Indication (Loc,
4247 Subtype_Mark =>
4248 New_Occurrence_Of (RTE (RE_Params_Stream_Type), Loc),
4249 Constraint =>
4250 Make_Index_Or_Discriminant_Constraint (Loc,
4251 Constraints =>
4252 New_List (Make_Integer_Literal (Loc, 0))))));
4254 if not Is_Known_Asynchronous then
4255 Result_Parameter := Make_Temporary (Loc, 'R');
4257 Append_To (Decls,
4258 Make_Object_Declaration (Loc,
4259 Defining_Identifier => Result_Parameter,
4260 Aliased_Present => True,
4261 Object_Definition =>
4262 Make_Subtype_Indication (Loc,
4263 Subtype_Mark =>
4264 New_Occurrence_Of (RTE (RE_Params_Stream_Type), Loc),
4265 Constraint =>
4266 Make_Index_Or_Discriminant_Constraint (Loc,
4267 Constraints =>
4268 New_List (Make_Integer_Literal (Loc, 0))))));
4270 Exception_Return_Parameter := Make_Temporary (Loc, 'E');
4272 Append_To (Decls,
4273 Make_Object_Declaration (Loc,
4274 Defining_Identifier => Exception_Return_Parameter,
4275 Object_Definition =>
4276 New_Occurrence_Of (RTE (RE_Exception_Occurrence), Loc)));
4278 else
4279 Result_Parameter := Empty;
4280 Exception_Return_Parameter := Empty;
4281 end if;
4283 -- Put first the RPC receiver corresponding to the remote package
4285 Append_To (Statements,
4286 Make_Attribute_Reference (Loc,
4287 Prefix =>
4288 New_Occurrence_Of (RTE (RE_Unsigned_64), Loc),
4289 Attribute_Name => Name_Write,
4290 Expressions => New_List (
4291 Make_Attribute_Reference (Loc,
4292 Prefix => New_Occurrence_Of (Stream_Parameter, Loc),
4293 Attribute_Name => Name_Access),
4294 Target_RPC_Receiver)));
4296 -- Then put the Subprogram_Id of the subprogram we want to call in
4297 -- the stream.
4299 Append_To (Statements,
4300 Make_Attribute_Reference (Loc,
4301 Prefix => New_Occurrence_Of (RTE (RE_Subprogram_Id), Loc),
4302 Attribute_Name => Name_Write,
4303 Expressions => New_List (
4304 Make_Attribute_Reference (Loc,
4305 Prefix => New_Occurrence_Of (Stream_Parameter, Loc),
4306 Attribute_Name => Name_Access),
4307 Subprogram_Id)));
4309 Current_Parameter := First (Ordered_Parameters_List);
4310 while Present (Current_Parameter) loop
4311 declare
4312 Typ : constant Node_Id :=
4313 Parameter_Type (Current_Parameter);
4314 Etyp : Entity_Id;
4315 Constrained : Boolean;
4316 Value : Node_Id;
4317 Extra_Parameter : Entity_Id;
4319 begin
4320 if Is_RACW_Controlling_Formal
4321 (Current_Parameter, Stub_Type)
4322 then
4323 -- In the case of a controlling formal argument, we marshall
4324 -- its addr field rather than the local stub.
4326 Append_To (Statements,
4327 Pack_Node_Into_Stream (Loc,
4328 Stream => Stream_Parameter,
4329 Object =>
4330 Make_Selected_Component (Loc,
4331 Prefix =>
4332 Defining_Identifier (Current_Parameter),
4333 Selector_Name => Name_Addr),
4334 Etyp => RTE (RE_Unsigned_64)));
4336 else
4337 Value :=
4338 New_Occurrence_Of
4339 (Defining_Identifier (Current_Parameter), Loc);
4341 -- Access type parameters are transmitted as in out
4342 -- parameters. However, a dereference is needed so that
4343 -- we marshall the designated object.
4345 if Nkind (Typ) = N_Access_Definition then
4346 Value := Make_Explicit_Dereference (Loc, Value);
4347 Etyp := Etype (Subtype_Mark (Typ));
4348 else
4349 Etyp := Etype (Typ);
4350 end if;
4352 Constrained := not Transmit_As_Unconstrained (Etyp);
4354 -- Any parameter but unconstrained out parameters are
4355 -- transmitted to the peer.
4357 if In_Present (Current_Parameter)
4358 or else not Out_Present (Current_Parameter)
4359 or else not Constrained
4360 then
4361 Append_To (Statements,
4362 Make_Attribute_Reference (Loc,
4363 Prefix => New_Occurrence_Of (Etyp, Loc),
4364 Attribute_Name =>
4365 Output_From_Constrained (Constrained),
4366 Expressions => New_List (
4367 Make_Attribute_Reference (Loc,
4368 Prefix =>
4369 New_Occurrence_Of (Stream_Parameter, Loc),
4370 Attribute_Name => Name_Access),
4371 Value)));
4372 end if;
4373 end if;
4375 -- If the current parameter has a dynamic constrained status,
4376 -- then this status is transmitted as well.
4377 -- This should be done for accessibility as well ???
4379 if Nkind (Typ) /= N_Access_Definition
4380 and then Need_Extra_Constrained (Current_Parameter)
4381 then
4382 -- In this block, we do not use the extra formal that has
4383 -- been created because it does not exist at the time of
4384 -- expansion when building calling stubs for remote access
4385 -- to subprogram types. We create an extra variable of this
4386 -- type and push it in the stream after the regular
4387 -- parameters.
4389 Extra_Parameter := Make_Temporary (Loc, 'P');
4391 Append_To (Decls,
4392 Make_Object_Declaration (Loc,
4393 Defining_Identifier => Extra_Parameter,
4394 Constant_Present => True,
4395 Object_Definition =>
4396 New_Occurrence_Of (Standard_Boolean, Loc),
4397 Expression =>
4398 Make_Attribute_Reference (Loc,
4399 Prefix =>
4400 New_Occurrence_Of (
4401 Defining_Identifier (Current_Parameter), Loc),
4402 Attribute_Name => Name_Constrained)));
4404 Append_To (Extra_Formal_Statements,
4405 Make_Attribute_Reference (Loc,
4406 Prefix =>
4407 New_Occurrence_Of (Standard_Boolean, Loc),
4408 Attribute_Name => Name_Write,
4409 Expressions => New_List (
4410 Make_Attribute_Reference (Loc,
4411 Prefix =>
4412 New_Occurrence_Of
4413 (Stream_Parameter, Loc), Attribute_Name =>
4414 Name_Access),
4415 New_Occurrence_Of (Extra_Parameter, Loc))));
4416 end if;
4418 Next (Current_Parameter);
4419 end;
4420 end loop;
4422 -- Append the formal statements list to the statements
4424 Append_List_To (Statements, Extra_Formal_Statements);
4426 if not Is_Known_Non_Asynchronous then
4428 -- Build the call to System.RPC.Do_APC
4430 Asynchronous_Statements := New_List (
4431 Make_Procedure_Call_Statement (Loc,
4432 Name =>
4433 New_Occurrence_Of (RTE (RE_Do_Apc), Loc),
4434 Parameter_Associations => New_List (
4435 New_Occurrence_Of (Target_Partition, Loc),
4436 Make_Attribute_Reference (Loc,
4437 Prefix =>
4438 New_Occurrence_Of (Stream_Parameter, Loc),
4439 Attribute_Name => Name_Access))));
4440 else
4441 Asynchronous_Statements := No_List;
4442 end if;
4444 if not Is_Known_Asynchronous then
4446 -- Build the call to System.RPC.Do_RPC
4448 Non_Asynchronous_Statements := New_List (
4449 Make_Procedure_Call_Statement (Loc,
4450 Name =>
4451 New_Occurrence_Of (RTE (RE_Do_Rpc), Loc),
4452 Parameter_Associations => New_List (
4453 New_Occurrence_Of (Target_Partition, Loc),
4455 Make_Attribute_Reference (Loc,
4456 Prefix =>
4457 New_Occurrence_Of (Stream_Parameter, Loc),
4458 Attribute_Name => Name_Access),
4460 Make_Attribute_Reference (Loc,
4461 Prefix =>
4462 New_Occurrence_Of (Result_Parameter, Loc),
4463 Attribute_Name => Name_Access))));
4465 -- Read the exception occurrence from the result stream and
4466 -- reraise it. It does no harm if this is a Null_Occurrence since
4467 -- this does nothing.
4469 Append_To (Non_Asynchronous_Statements,
4470 Make_Attribute_Reference (Loc,
4471 Prefix =>
4472 New_Occurrence_Of (RTE (RE_Exception_Occurrence), Loc),
4474 Attribute_Name => Name_Read,
4476 Expressions => New_List (
4477 Make_Attribute_Reference (Loc,
4478 Prefix =>
4479 New_Occurrence_Of (Result_Parameter, Loc),
4480 Attribute_Name => Name_Access),
4481 New_Occurrence_Of (Exception_Return_Parameter, Loc))));
4483 Append_To (Non_Asynchronous_Statements,
4484 Make_Procedure_Call_Statement (Loc,
4485 Name =>
4486 New_Occurrence_Of (RTE (RE_Reraise_Occurrence), Loc),
4487 Parameter_Associations => New_List (
4488 New_Occurrence_Of (Exception_Return_Parameter, Loc))));
4490 if Is_Function then
4492 -- If this is a function call, then read the value and return
4493 -- it. The return value is written/read using 'Output/'Input.
4495 Append_To (Non_Asynchronous_Statements,
4496 Make_Tag_Check (Loc,
4497 Make_Simple_Return_Statement (Loc,
4498 Expression =>
4499 Make_Attribute_Reference (Loc,
4500 Prefix =>
4501 New_Occurrence_Of (
4502 Etype (Result_Definition (Spec)), Loc),
4504 Attribute_Name => Name_Input,
4506 Expressions => New_List (
4507 Make_Attribute_Reference (Loc,
4508 Prefix =>
4509 New_Occurrence_Of (Result_Parameter, Loc),
4510 Attribute_Name => Name_Access))))));
4512 else
4513 -- Loop around parameters and assign out (or in out)
4514 -- parameters. In the case of RACW, controlling arguments
4515 -- cannot possibly have changed since they are remote, so
4516 -- we do not read them from the stream.
4518 Current_Parameter := First (Ordered_Parameters_List);
4519 while Present (Current_Parameter) loop
4520 declare
4521 Typ : constant Node_Id :=
4522 Parameter_Type (Current_Parameter);
4523 Etyp : Entity_Id;
4524 Value : Node_Id;
4526 begin
4527 Value :=
4528 New_Occurrence_Of
4529 (Defining_Identifier (Current_Parameter), Loc);
4531 if Nkind (Typ) = N_Access_Definition then
4532 Value := Make_Explicit_Dereference (Loc, Value);
4533 Etyp := Etype (Subtype_Mark (Typ));
4534 else
4535 Etyp := Etype (Typ);
4536 end if;
4538 if (Out_Present (Current_Parameter)
4539 or else Nkind (Typ) = N_Access_Definition)
4540 and then Etyp /= Stub_Type
4541 then
4542 Append_To (Non_Asynchronous_Statements,
4543 Make_Attribute_Reference (Loc,
4544 Prefix =>
4545 New_Occurrence_Of (Etyp, Loc),
4547 Attribute_Name => Name_Read,
4549 Expressions => New_List (
4550 Make_Attribute_Reference (Loc,
4551 Prefix =>
4552 New_Occurrence_Of (Result_Parameter, Loc),
4553 Attribute_Name => Name_Access),
4554 Value)));
4555 end if;
4556 end;
4558 Next (Current_Parameter);
4559 end loop;
4560 end if;
4561 end if;
4563 if Is_Known_Asynchronous then
4564 Append_List_To (Statements, Asynchronous_Statements);
4566 elsif Is_Known_Non_Asynchronous then
4567 Append_List_To (Statements, Non_Asynchronous_Statements);
4569 else
4570 pragma Assert (Present (Asynchronous));
4571 Prepend_To (Asynchronous_Statements,
4572 Make_Attribute_Reference (Loc,
4573 Prefix => New_Occurrence_Of (Standard_Boolean, Loc),
4574 Attribute_Name => Name_Write,
4575 Expressions => New_List (
4576 Make_Attribute_Reference (Loc,
4577 Prefix =>
4578 New_Occurrence_Of (Stream_Parameter, Loc),
4579 Attribute_Name => Name_Access),
4580 New_Occurrence_Of (Standard_True, Loc))));
4582 Prepend_To (Non_Asynchronous_Statements,
4583 Make_Attribute_Reference (Loc,
4584 Prefix => New_Occurrence_Of (Standard_Boolean, Loc),
4585 Attribute_Name => Name_Write,
4586 Expressions => New_List (
4587 Make_Attribute_Reference (Loc,
4588 Prefix =>
4589 New_Occurrence_Of (Stream_Parameter, Loc),
4590 Attribute_Name => Name_Access),
4591 New_Occurrence_Of (Standard_False, Loc))));
4593 Append_To (Statements,
4594 Make_Implicit_If_Statement (Nod,
4595 Condition => Asynchronous,
4596 Then_Statements => Asynchronous_Statements,
4597 Else_Statements => Non_Asynchronous_Statements));
4598 end if;
4599 end Build_General_Calling_Stubs;
4601 -----------------------------
4602 -- Build_RPC_Receiver_Body --
4603 -----------------------------
4605 procedure Build_RPC_Receiver_Body
4606 (RPC_Receiver : Entity_Id;
4607 Request : out Entity_Id;
4608 Subp_Id : out Entity_Id;
4609 Subp_Index : out Entity_Id;
4610 Stmts : out List_Id;
4611 Decl : out Node_Id)
4613 Loc : constant Source_Ptr := Sloc (RPC_Receiver);
4615 RPC_Receiver_Spec : Node_Id;
4616 RPC_Receiver_Decls : List_Id;
4618 begin
4619 Request := Make_Defining_Identifier (Loc, Name_R);
4621 RPC_Receiver_Spec :=
4622 Build_RPC_Receiver_Specification
4623 (RPC_Receiver => RPC_Receiver,
4624 Request_Parameter => Request);
4626 Subp_Id := Make_Temporary (Loc, 'P');
4627 Subp_Index := Subp_Id;
4629 -- Subp_Id may not be a constant, because in the case of the RPC
4630 -- receiver for an RCI package, when a call is received from a RAS
4631 -- dereference, it will be assigned during subsequent processing.
4633 RPC_Receiver_Decls := New_List (
4634 Make_Object_Declaration (Loc,
4635 Defining_Identifier => Subp_Id,
4636 Object_Definition =>
4637 New_Occurrence_Of (RTE (RE_Subprogram_Id), Loc),
4638 Expression =>
4639 Make_Attribute_Reference (Loc,
4640 Prefix =>
4641 New_Occurrence_Of (RTE (RE_Subprogram_Id), Loc),
4642 Attribute_Name => Name_Input,
4643 Expressions => New_List (
4644 Make_Selected_Component (Loc,
4645 Prefix => Request,
4646 Selector_Name => Name_Params)))));
4648 Stmts := New_List;
4650 Decl :=
4651 Make_Subprogram_Body (Loc,
4652 Specification => RPC_Receiver_Spec,
4653 Declarations => RPC_Receiver_Decls,
4654 Handled_Statement_Sequence =>
4655 Make_Handled_Sequence_Of_Statements (Loc,
4656 Statements => Stmts));
4657 end Build_RPC_Receiver_Body;
4659 -----------------------
4660 -- Build_Stub_Target --
4661 -----------------------
4663 function Build_Stub_Target
4664 (Loc : Source_Ptr;
4665 Decls : List_Id;
4666 RCI_Locator : Entity_Id;
4667 Controlling_Parameter : Entity_Id) return RPC_Target
4669 Target_Info : RPC_Target (PCS_Kind => Name_GARLIC_DSA);
4671 begin
4672 Target_Info.Partition := Make_Temporary (Loc, 'P');
4674 if Present (Controlling_Parameter) then
4675 Append_To (Decls,
4676 Make_Object_Declaration (Loc,
4677 Defining_Identifier => Target_Info.Partition,
4678 Constant_Present => True,
4679 Object_Definition =>
4680 New_Occurrence_Of (RTE (RE_Partition_ID), Loc),
4682 Expression =>
4683 Make_Selected_Component (Loc,
4684 Prefix => Controlling_Parameter,
4685 Selector_Name => Name_Origin)));
4687 Target_Info.RPC_Receiver :=
4688 Make_Selected_Component (Loc,
4689 Prefix => Controlling_Parameter,
4690 Selector_Name => Name_Receiver);
4692 else
4693 Append_To (Decls,
4694 Make_Object_Declaration (Loc,
4695 Defining_Identifier => Target_Info.Partition,
4696 Constant_Present => True,
4697 Object_Definition =>
4698 New_Occurrence_Of (RTE (RE_Partition_ID), Loc),
4700 Expression =>
4701 Make_Function_Call (Loc,
4702 Name => Make_Selected_Component (Loc,
4703 Prefix =>
4704 Make_Identifier (Loc, Chars (RCI_Locator)),
4705 Selector_Name =>
4706 Make_Identifier (Loc,
4707 Name_Get_Active_Partition_ID)))));
4709 Target_Info.RPC_Receiver :=
4710 Make_Selected_Component (Loc,
4711 Prefix =>
4712 Make_Identifier (Loc, Chars (RCI_Locator)),
4713 Selector_Name =>
4714 Make_Identifier (Loc, Name_Get_RCI_Package_Receiver));
4715 end if;
4716 return Target_Info;
4717 end Build_Stub_Target;
4719 --------------------------------------
4720 -- Build_Subprogram_Receiving_Stubs --
4721 --------------------------------------
4723 function Build_Subprogram_Receiving_Stubs
4724 (Vis_Decl : Node_Id;
4725 Asynchronous : Boolean;
4726 Dynamically_Asynchronous : Boolean := False;
4727 Stub_Type : Entity_Id := Empty;
4728 RACW_Type : Entity_Id := Empty;
4729 Parent_Primitive : Entity_Id := Empty) return Node_Id
4731 Loc : constant Source_Ptr := Sloc (Vis_Decl);
4733 Request_Parameter : constant Entity_Id := Make_Temporary (Loc, 'R');
4734 -- Formal parameter for receiving stubs: a descriptor for an incoming
4735 -- request.
4737 Decls : constant List_Id := New_List;
4738 -- All the parameters will get declared before calling the real
4739 -- subprograms. Also the out parameters will be declared.
4741 Statements : constant List_Id := New_List;
4743 Extra_Formal_Statements : constant List_Id := New_List;
4744 -- Statements concerning extra formal parameters
4746 After_Statements : constant List_Id := New_List;
4747 -- Statements to be executed after the subprogram call
4749 Inner_Decls : List_Id := No_List;
4750 -- In case of a function, the inner declarations are needed since
4751 -- the result may be unconstrained.
4753 Excep_Handlers : List_Id := No_List;
4754 Excep_Choice : Entity_Id;
4755 Excep_Code : List_Id;
4757 Parameter_List : constant List_Id := New_List;
4758 -- List of parameters to be passed to the subprogram
4760 Current_Parameter : Node_Id;
4762 Ordered_Parameters_List : constant List_Id :=
4763 Build_Ordered_Parameters_List
4764 (Specification (Vis_Decl));
4766 Subp_Spec : Node_Id;
4767 -- Subprogram specification
4769 Called_Subprogram : Node_Id;
4770 -- The subprogram to call
4772 Null_Raise_Statement : Node_Id;
4774 Dynamic_Async : Entity_Id;
4776 begin
4777 if Present (RACW_Type) then
4778 Called_Subprogram := New_Occurrence_Of (Parent_Primitive, Loc);
4779 else
4780 Called_Subprogram :=
4781 New_Occurrence_Of
4782 (Defining_Unit_Name (Specification (Vis_Decl)), Loc);
4783 end if;
4785 if Dynamically_Asynchronous then
4786 Dynamic_Async := Make_Temporary (Loc, 'S');
4787 else
4788 Dynamic_Async := Empty;
4789 end if;
4791 if not Asynchronous or Dynamically_Asynchronous then
4793 -- The first statement after the subprogram call is a statement to
4794 -- write a Null_Occurrence into the result stream.
4796 Null_Raise_Statement :=
4797 Make_Attribute_Reference (Loc,
4798 Prefix =>
4799 New_Occurrence_Of (RTE (RE_Exception_Occurrence), Loc),
4800 Attribute_Name => Name_Write,
4801 Expressions => New_List (
4802 Make_Selected_Component (Loc,
4803 Prefix => Request_Parameter,
4804 Selector_Name => Name_Result),
4805 New_Occurrence_Of (RTE (RE_Null_Occurrence), Loc)));
4807 if Dynamically_Asynchronous then
4808 Null_Raise_Statement :=
4809 Make_Implicit_If_Statement (Vis_Decl,
4810 Condition =>
4811 Make_Op_Not (Loc, New_Occurrence_Of (Dynamic_Async, Loc)),
4812 Then_Statements => New_List (Null_Raise_Statement));
4813 end if;
4815 Append_To (After_Statements, Null_Raise_Statement);
4816 end if;
4818 -- Loop through every parameter and get its value from the stream. If
4819 -- the parameter is unconstrained, then the parameter is read using
4820 -- 'Input at the point of declaration.
4822 Current_Parameter := First (Ordered_Parameters_List);
4823 while Present (Current_Parameter) loop
4824 declare
4825 Etyp : Entity_Id;
4826 Constrained : Boolean;
4828 Need_Extra_Constrained : Boolean;
4829 -- True when an Extra_Constrained actual is required
4831 Object : constant Entity_Id := Make_Temporary (Loc, 'P');
4833 Expr : Node_Id := Empty;
4835 Is_Controlling_Formal : constant Boolean :=
4836 Is_RACW_Controlling_Formal
4837 (Current_Parameter, Stub_Type);
4839 begin
4840 if Is_Controlling_Formal then
4842 -- We have a controlling formal parameter. Read its address
4843 -- rather than a real object. The address is in Unsigned_64
4844 -- form.
4846 Etyp := RTE (RE_Unsigned_64);
4847 else
4848 Etyp := Etype (Parameter_Type (Current_Parameter));
4849 end if;
4851 Constrained := not Transmit_As_Unconstrained (Etyp);
4853 if In_Present (Current_Parameter)
4854 or else not Out_Present (Current_Parameter)
4855 or else not Constrained
4856 or else Is_Controlling_Formal
4857 then
4858 -- If an input parameter is constrained, then the read of
4859 -- the parameter is deferred until the beginning of the
4860 -- subprogram body. If it is unconstrained, then an
4861 -- expression is built for the object declaration and the
4862 -- variable is set using 'Input instead of 'Read. Note that
4863 -- this deferral does not change the order in which the
4864 -- actuals are read because Build_Ordered_Parameter_List
4865 -- puts them unconstrained first.
4867 if Constrained then
4868 Append_To (Statements,
4869 Make_Attribute_Reference (Loc,
4870 Prefix => New_Occurrence_Of (Etyp, Loc),
4871 Attribute_Name => Name_Read,
4872 Expressions => New_List (
4873 Make_Selected_Component (Loc,
4874 Prefix => Request_Parameter,
4875 Selector_Name => Name_Params),
4876 New_Occurrence_Of (Object, Loc))));
4878 else
4880 -- Build and append Input_With_Tag_Check function
4882 Append_To (Decls,
4883 Input_With_Tag_Check (Loc,
4884 Var_Type => Etyp,
4885 Stream =>
4886 Make_Selected_Component (Loc,
4887 Prefix => Request_Parameter,
4888 Selector_Name => Name_Params)));
4890 -- Prepare function call expression
4892 Expr :=
4893 Make_Function_Call (Loc,
4894 Name =>
4895 New_Occurrence_Of
4896 (Defining_Unit_Name
4897 (Specification (Last (Decls))), Loc));
4898 end if;
4899 end if;
4901 Need_Extra_Constrained :=
4902 Nkind (Parameter_Type (Current_Parameter)) /=
4903 N_Access_Definition
4904 and then
4905 Ekind (Defining_Identifier (Current_Parameter)) /= E_Void
4906 and then
4907 Present (Extra_Constrained
4908 (Defining_Identifier (Current_Parameter)));
4910 -- We may not associate an extra constrained actual to a
4911 -- constant object, so if one is needed, declare the actual
4912 -- as a variable even if it won't be modified.
4914 Build_Actual_Object_Declaration
4915 (Object => Object,
4916 Etyp => Etyp,
4917 Variable => Need_Extra_Constrained
4918 or else Out_Present (Current_Parameter),
4919 Expr => Expr,
4920 Decls => Decls);
4922 -- An out parameter may be written back using a 'Write
4923 -- attribute instead of a 'Output because it has been
4924 -- constrained by the parameter given to the caller. Note that
4925 -- out controlling arguments in the case of a RACW are not put
4926 -- back in the stream because the pointer on them has not
4927 -- changed.
4929 if Out_Present (Current_Parameter)
4930 and then
4931 Etype (Parameter_Type (Current_Parameter)) /= Stub_Type
4932 then
4933 Append_To (After_Statements,
4934 Make_Attribute_Reference (Loc,
4935 Prefix => New_Occurrence_Of (Etyp, Loc),
4936 Attribute_Name => Name_Write,
4937 Expressions => New_List (
4938 Make_Selected_Component (Loc,
4939 Prefix => Request_Parameter,
4940 Selector_Name => Name_Result),
4941 New_Occurrence_Of (Object, Loc))));
4942 end if;
4944 -- For RACW controlling formals, the Etyp of Object is always
4945 -- an RACW, even if the parameter is not of an anonymous access
4946 -- type. In such case, we need to dereference it at call time.
4948 if Is_Controlling_Formal then
4949 if Nkind (Parameter_Type (Current_Parameter)) /=
4950 N_Access_Definition
4951 then
4952 Append_To (Parameter_List,
4953 Make_Parameter_Association (Loc,
4954 Selector_Name =>
4955 New_Occurrence_Of (
4956 Defining_Identifier (Current_Parameter), Loc),
4957 Explicit_Actual_Parameter =>
4958 Make_Explicit_Dereference (Loc,
4959 Unchecked_Convert_To (RACW_Type,
4960 OK_Convert_To (RTE (RE_Address),
4961 New_Occurrence_Of (Object, Loc))))));
4963 else
4964 Append_To (Parameter_List,
4965 Make_Parameter_Association (Loc,
4966 Selector_Name =>
4967 New_Occurrence_Of (
4968 Defining_Identifier (Current_Parameter), Loc),
4969 Explicit_Actual_Parameter =>
4970 Unchecked_Convert_To (RACW_Type,
4971 OK_Convert_To (RTE (RE_Address),
4972 New_Occurrence_Of (Object, Loc)))));
4973 end if;
4975 else
4976 Append_To (Parameter_List,
4977 Make_Parameter_Association (Loc,
4978 Selector_Name =>
4979 New_Occurrence_Of (
4980 Defining_Identifier (Current_Parameter), Loc),
4981 Explicit_Actual_Parameter =>
4982 New_Occurrence_Of (Object, Loc)));
4983 end if;
4985 -- If the current parameter needs an extra formal, then read it
4986 -- from the stream and set the corresponding semantic field in
4987 -- the variable. If the kind of the parameter identifier is
4988 -- E_Void, then this is a compiler generated parameter that
4989 -- doesn't need an extra constrained status.
4991 -- The case of Extra_Accessibility should also be handled ???
4993 if Need_Extra_Constrained then
4994 declare
4995 Extra_Parameter : constant Entity_Id :=
4996 Extra_Constrained
4997 (Defining_Identifier
4998 (Current_Parameter));
5000 Formal_Entity : constant Entity_Id :=
5001 Make_Defining_Identifier
5002 (Loc, Chars (Extra_Parameter));
5004 Formal_Type : constant Entity_Id :=
5005 Etype (Extra_Parameter);
5007 begin
5008 Append_To (Decls,
5009 Make_Object_Declaration (Loc,
5010 Defining_Identifier => Formal_Entity,
5011 Object_Definition =>
5012 New_Occurrence_Of (Formal_Type, Loc)));
5014 Append_To (Extra_Formal_Statements,
5015 Make_Attribute_Reference (Loc,
5016 Prefix => New_Occurrence_Of (
5017 Formal_Type, Loc),
5018 Attribute_Name => Name_Read,
5019 Expressions => New_List (
5020 Make_Selected_Component (Loc,
5021 Prefix => Request_Parameter,
5022 Selector_Name => Name_Params),
5023 New_Occurrence_Of (Formal_Entity, Loc))));
5025 -- Note: the call to Set_Extra_Constrained below relies
5026 -- on the fact that Object's Ekind has been set by
5027 -- Build_Actual_Object_Declaration.
5029 Set_Extra_Constrained (Object, Formal_Entity);
5030 end;
5031 end if;
5032 end;
5034 Next (Current_Parameter);
5035 end loop;
5037 -- Append the formal statements list at the end of regular statements
5039 Append_List_To (Statements, Extra_Formal_Statements);
5041 if Nkind (Specification (Vis_Decl)) = N_Function_Specification then
5043 -- The remote subprogram is a function. We build an inner block to
5044 -- be able to hold a potentially unconstrained result in a
5045 -- variable.
5047 declare
5048 Etyp : constant Entity_Id :=
5049 Etype (Result_Definition (Specification (Vis_Decl)));
5050 Result : constant Node_Id := Make_Temporary (Loc, 'R');
5052 begin
5053 Inner_Decls := New_List (
5054 Make_Object_Declaration (Loc,
5055 Defining_Identifier => Result,
5056 Constant_Present => True,
5057 Object_Definition => New_Occurrence_Of (Etyp, Loc),
5058 Expression =>
5059 Make_Function_Call (Loc,
5060 Name => Called_Subprogram,
5061 Parameter_Associations => Parameter_List)));
5063 if Is_Class_Wide_Type (Etyp) then
5065 -- For a remote call to a function with a class-wide type,
5066 -- check that the returned value satisfies the requirements
5067 -- of E.4(18).
5069 Append_To (Inner_Decls,
5070 Make_Transportable_Check (Loc,
5071 New_Occurrence_Of (Result, Loc)));
5073 end if;
5075 Append_To (After_Statements,
5076 Make_Attribute_Reference (Loc,
5077 Prefix => New_Occurrence_Of (Etyp, Loc),
5078 Attribute_Name => Name_Output,
5079 Expressions => New_List (
5080 Make_Selected_Component (Loc,
5081 Prefix => Request_Parameter,
5082 Selector_Name => Name_Result),
5083 New_Occurrence_Of (Result, Loc))));
5084 end;
5086 Append_To (Statements,
5087 Make_Block_Statement (Loc,
5088 Declarations => Inner_Decls,
5089 Handled_Statement_Sequence =>
5090 Make_Handled_Sequence_Of_Statements (Loc,
5091 Statements => After_Statements)));
5093 else
5094 -- The remote subprogram is a procedure. We do not need any inner
5095 -- block in this case.
5097 if Dynamically_Asynchronous then
5098 Append_To (Decls,
5099 Make_Object_Declaration (Loc,
5100 Defining_Identifier => Dynamic_Async,
5101 Object_Definition =>
5102 New_Occurrence_Of (Standard_Boolean, Loc)));
5104 Append_To (Statements,
5105 Make_Attribute_Reference (Loc,
5106 Prefix => New_Occurrence_Of (Standard_Boolean, Loc),
5107 Attribute_Name => Name_Read,
5108 Expressions => New_List (
5109 Make_Selected_Component (Loc,
5110 Prefix => Request_Parameter,
5111 Selector_Name => Name_Params),
5112 New_Occurrence_Of (Dynamic_Async, Loc))));
5113 end if;
5115 Append_To (Statements,
5116 Make_Procedure_Call_Statement (Loc,
5117 Name => Called_Subprogram,
5118 Parameter_Associations => Parameter_List));
5120 Append_List_To (Statements, After_Statements);
5121 end if;
5123 if Asynchronous and then not Dynamically_Asynchronous then
5125 -- For an asynchronous procedure, add a null exception handler
5127 Excep_Handlers := New_List (
5128 Make_Implicit_Exception_Handler (Loc,
5129 Exception_Choices => New_List (Make_Others_Choice (Loc)),
5130 Statements => New_List (Make_Null_Statement (Loc))));
5132 else
5133 -- In the other cases, if an exception is raised, then the
5134 -- exception occurrence is copied into the output stream and
5135 -- no other output parameter is written.
5137 Excep_Choice := Make_Temporary (Loc, 'E');
5139 Excep_Code := New_List (
5140 Make_Attribute_Reference (Loc,
5141 Prefix =>
5142 New_Occurrence_Of (RTE (RE_Exception_Occurrence), Loc),
5143 Attribute_Name => Name_Write,
5144 Expressions => New_List (
5145 Make_Selected_Component (Loc,
5146 Prefix => Request_Parameter,
5147 Selector_Name => Name_Result),
5148 New_Occurrence_Of (Excep_Choice, Loc))));
5150 if Dynamically_Asynchronous then
5151 Excep_Code := New_List (
5152 Make_Implicit_If_Statement (Vis_Decl,
5153 Condition => Make_Op_Not (Loc,
5154 New_Occurrence_Of (Dynamic_Async, Loc)),
5155 Then_Statements => Excep_Code));
5156 end if;
5158 Excep_Handlers := New_List (
5159 Make_Implicit_Exception_Handler (Loc,
5160 Choice_Parameter => Excep_Choice,
5161 Exception_Choices => New_List (Make_Others_Choice (Loc)),
5162 Statements => Excep_Code));
5164 end if;
5166 Subp_Spec :=
5167 Make_Procedure_Specification (Loc,
5168 Defining_Unit_Name => Make_Temporary (Loc, 'F'),
5170 Parameter_Specifications => New_List (
5171 Make_Parameter_Specification (Loc,
5172 Defining_Identifier => Request_Parameter,
5173 Parameter_Type =>
5174 New_Occurrence_Of (RTE (RE_Request_Access), Loc))));
5176 return
5177 Make_Subprogram_Body (Loc,
5178 Specification => Subp_Spec,
5179 Declarations => Decls,
5180 Handled_Statement_Sequence =>
5181 Make_Handled_Sequence_Of_Statements (Loc,
5182 Statements => Statements,
5183 Exception_Handlers => Excep_Handlers));
5184 end Build_Subprogram_Receiving_Stubs;
5186 ------------
5187 -- Result --
5188 ------------
5190 function Result return Node_Id is
5191 begin
5192 return Make_Identifier (Loc, Name_V);
5193 end Result;
5195 -----------------------
5196 -- RPC_Receiver_Decl --
5197 -----------------------
5199 function RPC_Receiver_Decl (RACW_Type : Entity_Id) return Node_Id is
5200 Loc : constant Source_Ptr := Sloc (RACW_Type);
5201 Is_RAS : constant Boolean := not Comes_From_Source (RACW_Type);
5203 begin
5204 -- No RPC receiver for remote access-to-subprogram
5206 if Is_RAS then
5207 return Empty;
5208 end if;
5210 return
5211 Make_Subprogram_Declaration (Loc,
5212 Build_RPC_Receiver_Specification
5213 (RPC_Receiver => Make_Temporary (Loc, 'R'),
5214 Request_Parameter => Make_Defining_Identifier (Loc, Name_R)));
5215 end RPC_Receiver_Decl;
5217 ----------------------
5218 -- Stream_Parameter --
5219 ----------------------
5221 function Stream_Parameter return Node_Id is
5222 begin
5223 return Make_Identifier (Loc, Name_S);
5224 end Stream_Parameter;
5226 end GARLIC_Support;
5228 -------------------------------
5229 -- Get_And_Reset_RACW_Bodies --
5230 -------------------------------
5232 function Get_And_Reset_RACW_Bodies (RACW_Type : Entity_Id) return List_Id is
5233 Desig : constant Entity_Id :=
5234 Etype (Designated_Type (RACW_Type));
5236 Stub_Elements : Stub_Structure := Stubs_Table.Get (Desig);
5238 Body_Decls : List_Id;
5239 -- Returned list of declarations
5241 begin
5242 if Stub_Elements = Empty_Stub_Structure then
5244 -- Stub elements may be missing as a consequence of a previously
5245 -- detected error.
5247 return No_List;
5248 end if;
5250 Body_Decls := Stub_Elements.Body_Decls;
5251 Stub_Elements.Body_Decls := No_List;
5252 Stubs_Table.Set (Desig, Stub_Elements);
5253 return Body_Decls;
5254 end Get_And_Reset_RACW_Bodies;
5256 -----------------------
5257 -- Get_Stub_Elements --
5258 -----------------------
5260 function Get_Stub_Elements (RACW_Type : Entity_Id) return Stub_Structure is
5261 Desig : constant Entity_Id :=
5262 Etype (Designated_Type (RACW_Type));
5263 Stub_Elements : constant Stub_Structure := Stubs_Table.Get (Desig);
5264 begin
5265 pragma Assert (Stub_Elements /= Empty_Stub_Structure);
5266 return Stub_Elements;
5267 end Get_Stub_Elements;
5269 -----------------------
5270 -- Get_Subprogram_Id --
5271 -----------------------
5273 function Get_Subprogram_Id (Def : Entity_Id) return String_Id is
5274 Result : constant String_Id := Get_Subprogram_Ids (Def).Str_Identifier;
5275 begin
5276 pragma Assert (Result /= No_String);
5277 return Result;
5278 end Get_Subprogram_Id;
5280 -----------------------
5281 -- Get_Subprogram_Id --
5282 -----------------------
5284 function Get_Subprogram_Id (Def : Entity_Id) return Int is
5285 begin
5286 return Get_Subprogram_Ids (Def).Int_Identifier;
5287 end Get_Subprogram_Id;
5289 ------------------------
5290 -- Get_Subprogram_Ids --
5291 ------------------------
5293 function Get_Subprogram_Ids
5294 (Def : Entity_Id) return Subprogram_Identifiers
5296 begin
5297 return Subprogram_Identifier_Table.Get (Def);
5298 end Get_Subprogram_Ids;
5300 ----------
5301 -- Hash --
5302 ----------
5304 function Hash (F : Entity_Id) return Hash_Index is
5305 begin
5306 return Hash_Index (Natural (F) mod Positive (Hash_Index'Last + 1));
5307 end Hash;
5309 function Hash (F : Name_Id) return Hash_Index is
5310 begin
5311 return Hash_Index (Natural (F) mod Positive (Hash_Index'Last + 1));
5312 end Hash;
5314 --------------------------
5315 -- Input_With_Tag_Check --
5316 --------------------------
5318 function Input_With_Tag_Check
5319 (Loc : Source_Ptr;
5320 Var_Type : Entity_Id;
5321 Stream : Node_Id) return Node_Id
5323 begin
5324 return
5325 Make_Subprogram_Body (Loc,
5326 Specification =>
5327 Make_Function_Specification (Loc,
5328 Defining_Unit_Name => Make_Temporary (Loc, 'S'),
5329 Result_Definition => New_Occurrence_Of (Var_Type, Loc)),
5330 Declarations => No_List,
5331 Handled_Statement_Sequence =>
5332 Make_Handled_Sequence_Of_Statements (Loc, New_List (
5333 Make_Tag_Check (Loc,
5334 Make_Simple_Return_Statement (Loc,
5335 Make_Attribute_Reference (Loc,
5336 Prefix => New_Occurrence_Of (Var_Type, Loc),
5337 Attribute_Name => Name_Input,
5338 Expressions =>
5339 New_List (Stream)))))));
5340 end Input_With_Tag_Check;
5342 --------------------------------
5343 -- Is_RACW_Controlling_Formal --
5344 --------------------------------
5346 function Is_RACW_Controlling_Formal
5347 (Parameter : Node_Id;
5348 Stub_Type : Entity_Id) return Boolean
5350 Typ : Entity_Id;
5352 begin
5353 -- If the kind of the parameter is E_Void, then it is not a controlling
5354 -- formal (this can happen in the context of RAS).
5356 if Ekind (Defining_Identifier (Parameter)) = E_Void then
5357 return False;
5358 end if;
5360 -- If the parameter is not a controlling formal, then it cannot be
5361 -- possibly a RACW_Controlling_Formal.
5363 if not Is_Controlling_Formal (Defining_Identifier (Parameter)) then
5364 return False;
5365 end if;
5367 Typ := Parameter_Type (Parameter);
5368 return (Nkind (Typ) = N_Access_Definition
5369 and then Etype (Subtype_Mark (Typ)) = Stub_Type)
5370 or else Etype (Typ) = Stub_Type;
5371 end Is_RACW_Controlling_Formal;
5373 ------------------------------
5374 -- Make_Transportable_Check --
5375 ------------------------------
5377 function Make_Transportable_Check
5378 (Loc : Source_Ptr;
5379 Expr : Node_Id) return Node_Id is
5380 begin
5381 return
5382 Make_Raise_Program_Error (Loc,
5383 Condition =>
5384 Make_Op_Not (Loc,
5385 Build_Get_Transportable (Loc,
5386 Make_Selected_Component (Loc,
5387 Prefix => Expr,
5388 Selector_Name => Make_Identifier (Loc, Name_uTag)))),
5389 Reason => PE_Non_Transportable_Actual);
5390 end Make_Transportable_Check;
5392 -----------------------------
5393 -- Make_Selected_Component --
5394 -----------------------------
5396 function Make_Selected_Component
5397 (Loc : Source_Ptr;
5398 Prefix : Entity_Id;
5399 Selector_Name : Name_Id) return Node_Id
5401 begin
5402 return Make_Selected_Component (Loc,
5403 Prefix => New_Occurrence_Of (Prefix, Loc),
5404 Selector_Name => Make_Identifier (Loc, Selector_Name));
5405 end Make_Selected_Component;
5407 --------------------
5408 -- Make_Tag_Check --
5409 --------------------
5411 function Make_Tag_Check (Loc : Source_Ptr; N : Node_Id) return Node_Id is
5412 Occ : constant Entity_Id := Make_Temporary (Loc, 'E');
5414 begin
5415 return Make_Block_Statement (Loc,
5416 Handled_Statement_Sequence =>
5417 Make_Handled_Sequence_Of_Statements (Loc,
5418 Statements => New_List (N),
5420 Exception_Handlers => New_List (
5421 Make_Implicit_Exception_Handler (Loc,
5422 Choice_Parameter => Occ,
5424 Exception_Choices =>
5425 New_List (New_Occurrence_Of (RTE (RE_Tag_Error), Loc)),
5427 Statements =>
5428 New_List (Make_Procedure_Call_Statement (Loc,
5429 New_Occurrence_Of
5430 (RTE (RE_Raise_Program_Error_Unknown_Tag), Loc),
5431 New_List (New_Occurrence_Of (Occ, Loc))))))));
5432 end Make_Tag_Check;
5434 ----------------------------
5435 -- Need_Extra_Constrained --
5436 ----------------------------
5438 function Need_Extra_Constrained (Parameter : Node_Id) return Boolean is
5439 Etyp : constant Entity_Id := Etype (Parameter_Type (Parameter));
5440 begin
5441 return Out_Present (Parameter)
5442 and then Has_Discriminants (Etyp)
5443 and then not Is_Constrained (Etyp)
5444 and then Is_Definite_Subtype (Etyp);
5445 end Need_Extra_Constrained;
5447 ------------------------------------
5448 -- Pack_Entity_Into_Stream_Access --
5449 ------------------------------------
5451 function Pack_Entity_Into_Stream_Access
5452 (Loc : Source_Ptr;
5453 Stream : Node_Id;
5454 Object : Entity_Id;
5455 Etyp : Entity_Id := Empty) return Node_Id
5457 Typ : Entity_Id;
5459 begin
5460 if Present (Etyp) then
5461 Typ := Etyp;
5462 else
5463 Typ := Etype (Object);
5464 end if;
5466 return
5467 Pack_Node_Into_Stream_Access (Loc,
5468 Stream => Stream,
5469 Object => New_Occurrence_Of (Object, Loc),
5470 Etyp => Typ);
5471 end Pack_Entity_Into_Stream_Access;
5473 ---------------------------
5474 -- Pack_Node_Into_Stream --
5475 ---------------------------
5477 function Pack_Node_Into_Stream
5478 (Loc : Source_Ptr;
5479 Stream : Entity_Id;
5480 Object : Node_Id;
5481 Etyp : Entity_Id) return Node_Id
5483 Write_Attribute : Name_Id := Name_Write;
5485 begin
5486 if not Is_Constrained (Etyp) then
5487 Write_Attribute := Name_Output;
5488 end if;
5490 return
5491 Make_Attribute_Reference (Loc,
5492 Prefix => New_Occurrence_Of (Etyp, Loc),
5493 Attribute_Name => Write_Attribute,
5494 Expressions => New_List (
5495 Make_Attribute_Reference (Loc,
5496 Prefix => New_Occurrence_Of (Stream, Loc),
5497 Attribute_Name => Name_Access),
5498 Object));
5499 end Pack_Node_Into_Stream;
5501 ----------------------------------
5502 -- Pack_Node_Into_Stream_Access --
5503 ----------------------------------
5505 function Pack_Node_Into_Stream_Access
5506 (Loc : Source_Ptr;
5507 Stream : Node_Id;
5508 Object : Node_Id;
5509 Etyp : Entity_Id) return Node_Id
5511 Write_Attribute : Name_Id := Name_Write;
5513 begin
5514 if not Is_Constrained (Etyp) then
5515 Write_Attribute := Name_Output;
5516 end if;
5518 return
5519 Make_Attribute_Reference (Loc,
5520 Prefix => New_Occurrence_Of (Etyp, Loc),
5521 Attribute_Name => Write_Attribute,
5522 Expressions => New_List (
5523 Stream,
5524 Object));
5525 end Pack_Node_Into_Stream_Access;
5527 ---------------------
5528 -- PolyORB_Support --
5529 ---------------------
5531 package body PolyORB_Support is
5533 -- Local subprograms
5535 procedure Add_RACW_Read_Attribute
5536 (RACW_Type : Entity_Id;
5537 Stub_Type : Entity_Id;
5538 Stub_Type_Access : Entity_Id;
5539 Body_Decls : List_Id);
5540 -- Add Read attribute for the RACW type. The declaration and attribute
5541 -- definition clauses are inserted right after the declaration of
5542 -- RACW_Type. If Body_Decls is not No_List, the subprogram body is
5543 -- appended to it (case where the RACW declaration is in the main unit).
5545 procedure Add_RACW_Write_Attribute
5546 (RACW_Type : Entity_Id;
5547 Stub_Type : Entity_Id;
5548 Stub_Type_Access : Entity_Id;
5549 Body_Decls : List_Id);
5550 -- Same as above for the Write attribute
5552 procedure Add_RACW_From_Any
5553 (RACW_Type : Entity_Id;
5554 Body_Decls : List_Id);
5555 -- Add the From_Any TSS for this RACW type
5557 procedure Add_RACW_To_Any
5558 (RACW_Type : Entity_Id;
5559 Body_Decls : List_Id);
5560 -- Add the To_Any TSS for this RACW type
5562 procedure Add_RACW_TypeCode
5563 (Designated_Type : Entity_Id;
5564 RACW_Type : Entity_Id;
5565 Body_Decls : List_Id);
5566 -- Add the TypeCode TSS for this RACW type
5568 procedure Add_RAS_From_Any (RAS_Type : Entity_Id);
5569 -- Add the From_Any TSS for this RAS type
5571 procedure Add_RAS_To_Any (RAS_Type : Entity_Id);
5572 -- Add the To_Any TSS for this RAS type
5574 procedure Add_RAS_TypeCode (RAS_Type : Entity_Id);
5575 -- Add the TypeCode TSS for this RAS type
5577 procedure Add_RAS_Access_TSS (N : Node_Id);
5578 -- Add a subprogram body for RAS Access TSS
5580 -------------------------------------
5581 -- Add_Obj_RPC_Receiver_Completion --
5582 -------------------------------------
5584 procedure Add_Obj_RPC_Receiver_Completion
5585 (Loc : Source_Ptr;
5586 Decls : List_Id;
5587 RPC_Receiver : Entity_Id;
5588 Stub_Elements : Stub_Structure)
5590 Desig : constant Entity_Id :=
5591 Etype (Designated_Type (Stub_Elements.RACW_Type));
5592 begin
5593 Append_To (Decls,
5594 Make_Procedure_Call_Statement (Loc,
5595 Name =>
5596 New_Occurrence_Of (
5597 RTE (RE_Register_Obj_Receiving_Stub), Loc),
5599 Parameter_Associations => New_List (
5601 -- Name
5603 Make_String_Literal (Loc,
5604 Fully_Qualified_Name_String (Desig, Append_NUL => False)),
5606 -- Handler
5608 Make_Attribute_Reference (Loc,
5609 Prefix =>
5610 New_Occurrence_Of (
5611 Defining_Unit_Name (Parent (RPC_Receiver)), Loc),
5612 Attribute_Name =>
5613 Name_Access),
5615 -- Receiver
5617 Make_Attribute_Reference (Loc,
5618 Prefix =>
5619 New_Occurrence_Of (
5620 Defining_Identifier (
5621 Stub_Elements.RPC_Receiver_Decl), Loc),
5622 Attribute_Name =>
5623 Name_Access))));
5624 end Add_Obj_RPC_Receiver_Completion;
5626 -----------------------
5627 -- Add_RACW_Features --
5628 -----------------------
5630 procedure Add_RACW_Features
5631 (RACW_Type : Entity_Id;
5632 Desig : Entity_Id;
5633 Stub_Type : Entity_Id;
5634 Stub_Type_Access : Entity_Id;
5635 RPC_Receiver_Decl : Node_Id;
5636 Body_Decls : List_Id)
5638 pragma Unreferenced (RPC_Receiver_Decl);
5640 begin
5641 Add_RACW_From_Any
5642 (RACW_Type => RACW_Type,
5643 Body_Decls => Body_Decls);
5645 Add_RACW_To_Any
5646 (RACW_Type => RACW_Type,
5647 Body_Decls => Body_Decls);
5649 Add_RACW_Write_Attribute
5650 (RACW_Type => RACW_Type,
5651 Stub_Type => Stub_Type,
5652 Stub_Type_Access => Stub_Type_Access,
5653 Body_Decls => Body_Decls);
5655 Add_RACW_Read_Attribute
5656 (RACW_Type => RACW_Type,
5657 Stub_Type => Stub_Type,
5658 Stub_Type_Access => Stub_Type_Access,
5659 Body_Decls => Body_Decls);
5661 Add_RACW_TypeCode
5662 (Designated_Type => Desig,
5663 RACW_Type => RACW_Type,
5664 Body_Decls => Body_Decls);
5665 end Add_RACW_Features;
5667 -----------------------
5668 -- Add_RACW_From_Any --
5669 -----------------------
5671 procedure Add_RACW_From_Any
5672 (RACW_Type : Entity_Id;
5673 Body_Decls : List_Id)
5675 Loc : constant Source_Ptr := Sloc (RACW_Type);
5676 Is_RAS : constant Boolean := not Comes_From_Source (RACW_Type);
5677 Fnam : constant Entity_Id :=
5678 Make_Defining_Identifier (Loc,
5679 Chars => New_External_Name (Chars (RACW_Type), 'F'));
5681 Func_Spec : Node_Id;
5682 Func_Decl : Node_Id;
5683 Func_Body : Node_Id;
5685 Statements : List_Id;
5686 -- Various parts of the subprogram
5688 Any_Parameter : constant Entity_Id :=
5689 Make_Defining_Identifier (Loc, Name_A);
5691 Asynchronous_Flag : constant Entity_Id :=
5692 Asynchronous_Flags_Table.Get (RACW_Type);
5693 -- The flag object declared in Add_RACW_Asynchronous_Flag
5695 begin
5696 Func_Spec :=
5697 Make_Function_Specification (Loc,
5698 Defining_Unit_Name =>
5699 Fnam,
5700 Parameter_Specifications => New_List (
5701 Make_Parameter_Specification (Loc,
5702 Defining_Identifier =>
5703 Any_Parameter,
5704 Parameter_Type =>
5705 New_Occurrence_Of (RTE (RE_Any), Loc))),
5706 Result_Definition => New_Occurrence_Of (RACW_Type, Loc));
5708 -- NOTE: The usage occurrences of RACW_Parameter must refer to the
5709 -- entity in the declaration spec, not those of the body spec.
5711 Func_Decl := Make_Subprogram_Declaration (Loc, Func_Spec);
5712 Insert_After (Declaration_Node (RACW_Type), Func_Decl);
5713 Set_Renaming_TSS (RACW_Type, Fnam, TSS_From_Any);
5715 if No (Body_Decls) then
5716 return;
5717 end if;
5719 -- ??? Issue with asynchronous calls here: the Asynchronous flag is
5720 -- set on the stub type if, and only if, the RACW type has a pragma
5721 -- Asynchronous. This is incorrect for RACWs that implement RAS
5722 -- types, because in that case the /designated subprogram/ (not the
5723 -- type) might be asynchronous, and that causes the stub to need to
5724 -- be asynchronous too. A solution is to transport a RAS as a struct
5725 -- containing a RACW and an asynchronous flag, and to properly alter
5726 -- the Asynchronous component in the stub type in the RAS's _From_Any
5727 -- TSS.
5729 Statements := New_List (
5730 Make_Simple_Return_Statement (Loc,
5731 Expression => Unchecked_Convert_To (RACW_Type,
5732 Make_Function_Call (Loc,
5733 Name => New_Occurrence_Of (RTE (RE_Get_RACW), Loc),
5734 Parameter_Associations => New_List (
5735 Make_Function_Call (Loc,
5736 Name => New_Occurrence_Of (RTE (RE_FA_ObjRef), Loc),
5737 Parameter_Associations => New_List (
5738 New_Occurrence_Of (Any_Parameter, Loc))),
5739 Build_Stub_Tag (Loc, RACW_Type),
5740 New_Occurrence_Of (Boolean_Literals (Is_RAS), Loc),
5741 New_Occurrence_Of (Asynchronous_Flag, Loc))))));
5743 Func_Body :=
5744 Make_Subprogram_Body (Loc,
5745 Specification => Copy_Specification (Loc, Func_Spec),
5746 Declarations => No_List,
5747 Handled_Statement_Sequence =>
5748 Make_Handled_Sequence_Of_Statements (Loc,
5749 Statements => Statements));
5751 Append_To (Body_Decls, Func_Body);
5752 end Add_RACW_From_Any;
5754 -----------------------------
5755 -- Add_RACW_Read_Attribute --
5756 -----------------------------
5758 procedure Add_RACW_Read_Attribute
5759 (RACW_Type : Entity_Id;
5760 Stub_Type : Entity_Id;
5761 Stub_Type_Access : Entity_Id;
5762 Body_Decls : List_Id)
5764 pragma Unreferenced (Stub_Type, Stub_Type_Access);
5766 Loc : constant Source_Ptr := Sloc (RACW_Type);
5768 Proc_Decl : Node_Id;
5769 Attr_Decl : Node_Id;
5771 Body_Node : Node_Id;
5773 Decls : constant List_Id := New_List;
5774 Statements : constant List_Id := New_List;
5775 Reference : constant Entity_Id :=
5776 Make_Defining_Identifier (Loc, Name_R);
5777 -- Various parts of the procedure
5779 Pnam : constant Entity_Id := Make_Temporary (Loc, 'R');
5781 Is_RAS : constant Boolean := not Comes_From_Source (RACW_Type);
5783 Asynchronous_Flag : constant Entity_Id :=
5784 Asynchronous_Flags_Table.Get (RACW_Type);
5785 pragma Assert (Present (Asynchronous_Flag));
5787 function Stream_Parameter return Node_Id;
5788 function Result return Node_Id;
5790 -- Functions to create occurrences of the formal parameter names
5792 ------------
5793 -- Result --
5794 ------------
5796 function Result return Node_Id is
5797 begin
5798 return Make_Identifier (Loc, Name_V);
5799 end Result;
5801 ----------------------
5802 -- Stream_Parameter --
5803 ----------------------
5805 function Stream_Parameter return Node_Id is
5806 begin
5807 return Make_Identifier (Loc, Name_S);
5808 end Stream_Parameter;
5810 -- Start of processing for Add_RACW_Read_Attribute
5812 begin
5813 Build_Stream_Procedure
5814 (Loc, RACW_Type, Body_Node, Pnam, Statements, Outp => True);
5816 Proc_Decl := Make_Subprogram_Declaration (Loc,
5817 Copy_Specification (Loc, Specification (Body_Node)));
5819 Attr_Decl :=
5820 Make_Attribute_Definition_Clause (Loc,
5821 Name => New_Occurrence_Of (RACW_Type, Loc),
5822 Chars => Name_Read,
5823 Expression =>
5824 New_Occurrence_Of (
5825 Defining_Unit_Name (Specification (Proc_Decl)), Loc));
5827 Insert_After (Declaration_Node (RACW_Type), Proc_Decl);
5828 Insert_After (Proc_Decl, Attr_Decl);
5830 if No (Body_Decls) then
5831 return;
5832 end if;
5834 Append_To (Decls,
5835 Make_Object_Declaration (Loc,
5836 Defining_Identifier =>
5837 Reference,
5838 Object_Definition =>
5839 New_Occurrence_Of (RTE (RE_Object_Ref), Loc)));
5841 Append_List_To (Statements, New_List (
5842 Make_Attribute_Reference (Loc,
5843 Prefix =>
5844 New_Occurrence_Of (RTE (RE_Object_Ref), Loc),
5845 Attribute_Name => Name_Read,
5846 Expressions => New_List (
5847 Stream_Parameter,
5848 New_Occurrence_Of (Reference, Loc))),
5850 Make_Assignment_Statement (Loc,
5851 Name =>
5852 Result,
5853 Expression =>
5854 Unchecked_Convert_To (RACW_Type,
5855 Make_Function_Call (Loc,
5856 Name =>
5857 New_Occurrence_Of (RTE (RE_Get_RACW), Loc),
5858 Parameter_Associations => New_List (
5859 New_Occurrence_Of (Reference, Loc),
5860 Build_Stub_Tag (Loc, RACW_Type),
5861 New_Occurrence_Of (Boolean_Literals (Is_RAS), Loc),
5862 New_Occurrence_Of (Asynchronous_Flag, Loc)))))));
5864 Set_Declarations (Body_Node, Decls);
5865 Append_To (Body_Decls, Body_Node);
5866 end Add_RACW_Read_Attribute;
5868 ---------------------
5869 -- Add_RACW_To_Any --
5870 ---------------------
5872 procedure Add_RACW_To_Any
5873 (RACW_Type : Entity_Id;
5874 Body_Decls : List_Id)
5876 Loc : constant Source_Ptr := Sloc (RACW_Type);
5878 Fnam : constant Entity_Id :=
5879 Make_Defining_Identifier (Loc,
5880 Chars => New_External_Name (Chars (RACW_Type), 'T'));
5882 Is_RAS : constant Boolean := not Comes_From_Source (RACW_Type);
5884 Stub_Elements : constant Stub_Structure :=
5885 Get_Stub_Elements (RACW_Type);
5887 Func_Spec : Node_Id;
5888 Func_Decl : Node_Id;
5889 Func_Body : Node_Id;
5891 Decls : List_Id;
5892 Statements : List_Id;
5893 -- Various parts of the subprogram
5895 RACW_Parameter : constant Entity_Id :=
5896 Make_Defining_Identifier (Loc, Name_R);
5898 Reference : constant Entity_Id := Make_Temporary (Loc, 'R');
5899 Any : constant Entity_Id := Make_Temporary (Loc, 'A');
5901 begin
5902 Func_Spec :=
5903 Make_Function_Specification (Loc,
5904 Defining_Unit_Name =>
5905 Fnam,
5906 Parameter_Specifications => New_List (
5907 Make_Parameter_Specification (Loc,
5908 Defining_Identifier =>
5909 RACW_Parameter,
5910 Parameter_Type =>
5911 New_Occurrence_Of (RACW_Type, Loc))),
5912 Result_Definition => New_Occurrence_Of (RTE (RE_Any), Loc));
5914 -- NOTE: The usage occurrences of RACW_Parameter must refer to the
5915 -- entity in the declaration spec, not in the body spec.
5917 Func_Decl := Make_Subprogram_Declaration (Loc, Func_Spec);
5919 Insert_After (Declaration_Node (RACW_Type), Func_Decl);
5920 Set_Renaming_TSS (RACW_Type, Fnam, TSS_To_Any);
5922 if No (Body_Decls) then
5923 return;
5924 end if;
5926 -- Generate:
5928 -- R : constant Object_Ref :=
5929 -- Get_Reference
5930 -- (Address!(RACW),
5931 -- "typ",
5932 -- Stub_Type'Tag,
5933 -- Is_RAS,
5934 -- RPC_Receiver'Access);
5935 -- A : Any;
5937 Decls := New_List (
5938 Make_Object_Declaration (Loc,
5939 Defining_Identifier => Reference,
5940 Constant_Present => True,
5941 Object_Definition =>
5942 New_Occurrence_Of (RTE (RE_Object_Ref), Loc),
5943 Expression =>
5944 Make_Function_Call (Loc,
5945 Name => New_Occurrence_Of (RTE (RE_Get_Reference), Loc),
5946 Parameter_Associations => New_List (
5947 Unchecked_Convert_To (RTE (RE_Address),
5948 New_Occurrence_Of (RACW_Parameter, Loc)),
5949 Make_String_Literal (Loc,
5950 Strval => Fully_Qualified_Name_String
5951 (Etype (Designated_Type (RACW_Type)),
5952 Append_NUL => False)),
5953 Build_Stub_Tag (Loc, RACW_Type),
5954 New_Occurrence_Of (Boolean_Literals (Is_RAS), Loc),
5955 Make_Attribute_Reference (Loc,
5956 Prefix =>
5957 New_Occurrence_Of
5958 (Defining_Identifier
5959 (Stub_Elements.RPC_Receiver_Decl), Loc),
5960 Attribute_Name => Name_Access)))),
5962 Make_Object_Declaration (Loc,
5963 Defining_Identifier => Any,
5964 Object_Definition => New_Occurrence_Of (RTE (RE_Any), Loc)));
5966 -- Generate:
5968 -- Any := TA_ObjRef (Reference);
5969 -- Set_TC (Any, RPC_Receiver.Obj_TypeCode);
5970 -- return Any;
5972 Statements := New_List (
5973 Make_Assignment_Statement (Loc,
5974 Name => New_Occurrence_Of (Any, Loc),
5975 Expression =>
5976 Make_Function_Call (Loc,
5977 Name => New_Occurrence_Of (RTE (RE_TA_ObjRef), Loc),
5978 Parameter_Associations => New_List (
5979 New_Occurrence_Of (Reference, Loc)))),
5981 Make_Procedure_Call_Statement (Loc,
5982 Name => New_Occurrence_Of (RTE (RE_Set_TC), Loc),
5983 Parameter_Associations => New_List (
5984 New_Occurrence_Of (Any, Loc),
5985 Make_Selected_Component (Loc,
5986 Prefix =>
5987 Defining_Identifier (
5988 Stub_Elements.RPC_Receiver_Decl),
5989 Selector_Name => Name_Obj_TypeCode))),
5991 Make_Simple_Return_Statement (Loc,
5992 Expression => New_Occurrence_Of (Any, Loc)));
5994 Func_Body :=
5995 Make_Subprogram_Body (Loc,
5996 Specification => Copy_Specification (Loc, Func_Spec),
5997 Declarations => Decls,
5998 Handled_Statement_Sequence =>
5999 Make_Handled_Sequence_Of_Statements (Loc,
6000 Statements => Statements));
6001 Append_To (Body_Decls, Func_Body);
6002 end Add_RACW_To_Any;
6004 -----------------------
6005 -- Add_RACW_TypeCode --
6006 -----------------------
6008 procedure Add_RACW_TypeCode
6009 (Designated_Type : Entity_Id;
6010 RACW_Type : Entity_Id;
6011 Body_Decls : List_Id)
6013 Loc : constant Source_Ptr := Sloc (RACW_Type);
6015 Fnam : constant Entity_Id :=
6016 Make_Defining_Identifier (Loc,
6017 Chars => New_External_Name (Chars (RACW_Type), 'Y'));
6019 Stub_Elements : constant Stub_Structure :=
6020 Stubs_Table.Get (Designated_Type);
6021 pragma Assert (Stub_Elements /= Empty_Stub_Structure);
6023 Func_Spec : Node_Id;
6024 Func_Decl : Node_Id;
6025 Func_Body : Node_Id;
6027 begin
6028 -- The spec for this subprogram has a dummy 'access RACW' argument,
6029 -- which serves only for overloading purposes.
6031 Func_Spec :=
6032 Make_Function_Specification (Loc,
6033 Defining_Unit_Name => Fnam,
6034 Result_Definition => New_Occurrence_Of (RTE (RE_TypeCode), Loc));
6036 -- NOTE: The usage occurrences of RACW_Parameter must refer to the
6037 -- entity in the declaration spec, not those of the body spec.
6039 Func_Decl := Make_Subprogram_Declaration (Loc, Func_Spec);
6040 Insert_After (Declaration_Node (RACW_Type), Func_Decl);
6041 Set_Renaming_TSS (RACW_Type, Fnam, TSS_TypeCode);
6043 if No (Body_Decls) then
6044 return;
6045 end if;
6047 Func_Body :=
6048 Make_Subprogram_Body (Loc,
6049 Specification => Copy_Specification (Loc, Func_Spec),
6050 Declarations => Empty_List,
6051 Handled_Statement_Sequence =>
6052 Make_Handled_Sequence_Of_Statements (Loc,
6053 Statements => New_List (
6054 Make_Simple_Return_Statement (Loc,
6055 Expression =>
6056 Make_Selected_Component (Loc,
6057 Prefix =>
6058 Defining_Identifier
6059 (Stub_Elements.RPC_Receiver_Decl),
6060 Selector_Name => Name_Obj_TypeCode)))));
6062 Append_To (Body_Decls, Func_Body);
6063 end Add_RACW_TypeCode;
6065 ------------------------------
6066 -- Add_RACW_Write_Attribute --
6067 ------------------------------
6069 procedure Add_RACW_Write_Attribute
6070 (RACW_Type : Entity_Id;
6071 Stub_Type : Entity_Id;
6072 Stub_Type_Access : Entity_Id;
6073 Body_Decls : List_Id)
6075 pragma Unreferenced (Stub_Type, Stub_Type_Access);
6077 Loc : constant Source_Ptr := Sloc (RACW_Type);
6079 Is_RAS : constant Boolean := not Comes_From_Source (RACW_Type);
6081 Stub_Elements : constant Stub_Structure :=
6082 Get_Stub_Elements (RACW_Type);
6084 Body_Node : Node_Id;
6085 Proc_Decl : Node_Id;
6086 Attr_Decl : Node_Id;
6088 Statements : constant List_Id := New_List;
6089 Pnam : constant Entity_Id := Make_Temporary (Loc, 'R');
6091 function Stream_Parameter return Node_Id;
6092 function Object return Node_Id;
6093 -- Functions to create occurrences of the formal parameter names
6095 ------------
6096 -- Object --
6097 ------------
6099 function Object return Node_Id is
6100 begin
6101 return Make_Identifier (Loc, Name_V);
6102 end Object;
6104 ----------------------
6105 -- Stream_Parameter --
6106 ----------------------
6108 function Stream_Parameter return Node_Id is
6109 begin
6110 return Make_Identifier (Loc, Name_S);
6111 end Stream_Parameter;
6113 -- Start of processing for Add_RACW_Write_Attribute
6115 begin
6116 Build_Stream_Procedure
6117 (Loc, RACW_Type, Body_Node, Pnam, Statements, Outp => False);
6119 Proc_Decl :=
6120 Make_Subprogram_Declaration (Loc,
6121 Copy_Specification (Loc, Specification (Body_Node)));
6123 Attr_Decl :=
6124 Make_Attribute_Definition_Clause (Loc,
6125 Name => New_Occurrence_Of (RACW_Type, Loc),
6126 Chars => Name_Write,
6127 Expression =>
6128 New_Occurrence_Of (
6129 Defining_Unit_Name (Specification (Proc_Decl)), Loc));
6131 Insert_After (Declaration_Node (RACW_Type), Proc_Decl);
6132 Insert_After (Proc_Decl, Attr_Decl);
6134 if No (Body_Decls) then
6135 return;
6136 end if;
6138 Append_To (Statements,
6139 Pack_Node_Into_Stream_Access (Loc,
6140 Stream => Stream_Parameter,
6141 Object =>
6142 Make_Function_Call (Loc,
6143 Name => New_Occurrence_Of (RTE (RE_Get_Reference), Loc),
6144 Parameter_Associations => New_List (
6145 Unchecked_Convert_To (RTE (RE_Address), Object),
6146 Make_String_Literal (Loc,
6147 Strval => Fully_Qualified_Name_String
6148 (Etype (Designated_Type (RACW_Type)),
6149 Append_NUL => False)),
6150 Build_Stub_Tag (Loc, RACW_Type),
6151 New_Occurrence_Of (Boolean_Literals (Is_RAS), Loc),
6152 Make_Attribute_Reference (Loc,
6153 Prefix =>
6154 New_Occurrence_Of
6155 (Defining_Identifier
6156 (Stub_Elements.RPC_Receiver_Decl), Loc),
6157 Attribute_Name => Name_Access))),
6159 Etyp => RTE (RE_Object_Ref)));
6161 Append_To (Body_Decls, Body_Node);
6162 end Add_RACW_Write_Attribute;
6164 -----------------------
6165 -- Add_RAST_Features --
6166 -----------------------
6168 procedure Add_RAST_Features
6169 (Vis_Decl : Node_Id;
6170 RAS_Type : Entity_Id)
6172 begin
6173 Add_RAS_Access_TSS (Vis_Decl);
6175 Add_RAS_From_Any (RAS_Type);
6176 Add_RAS_TypeCode (RAS_Type);
6178 -- To_Any uses TypeCode, and therefore needs to be generated last
6180 Add_RAS_To_Any (RAS_Type);
6181 end Add_RAST_Features;
6183 ------------------------
6184 -- Add_RAS_Access_TSS --
6185 ------------------------
6187 procedure Add_RAS_Access_TSS (N : Node_Id) is
6188 Loc : constant Source_Ptr := Sloc (N);
6190 Ras_Type : constant Entity_Id := Defining_Identifier (N);
6191 Fat_Type : constant Entity_Id := Equivalent_Type (Ras_Type);
6192 -- Ras_Type is the access to subprogram type; Fat_Type is the
6193 -- corresponding record type.
6195 RACW_Type : constant Entity_Id :=
6196 Underlying_RACW_Type (Ras_Type);
6198 Stub_Elements : constant Stub_Structure :=
6199 Get_Stub_Elements (RACW_Type);
6201 Proc : constant Entity_Id :=
6202 Make_Defining_Identifier (Loc,
6203 Chars => Make_TSS_Name (Ras_Type, TSS_RAS_Access));
6205 Proc_Spec : Node_Id;
6207 -- Formal parameters
6209 Package_Name : constant Entity_Id :=
6210 Make_Defining_Identifier (Loc,
6211 Chars => Name_P);
6213 -- Target package
6215 Subp_Id : constant Entity_Id :=
6216 Make_Defining_Identifier (Loc,
6217 Chars => Name_S);
6219 -- Target subprogram
6221 Asynch_P : constant Entity_Id :=
6222 Make_Defining_Identifier (Loc,
6223 Chars => Name_Asynchronous);
6224 -- Is the procedure to which the 'Access applies asynchronous?
6226 All_Calls_Remote : constant Entity_Id :=
6227 Make_Defining_Identifier (Loc,
6228 Chars => Name_All_Calls_Remote);
6229 -- True if an All_Calls_Remote pragma applies to the RCI unit
6230 -- that contains the subprogram.
6232 -- Common local variables
6234 Proc_Decls : List_Id;
6235 Proc_Statements : List_Id;
6237 Subp_Ref : constant Entity_Id :=
6238 Make_Defining_Identifier (Loc, Name_R);
6239 -- Reference that designates the target subprogram (returned
6240 -- by Get_RAS_Info).
6242 Is_Local : constant Entity_Id :=
6243 Make_Defining_Identifier (Loc, Name_L);
6244 Local_Addr : constant Entity_Id :=
6245 Make_Defining_Identifier (Loc, Name_A);
6246 -- For the call to Get_Local_Address
6248 Local_Stub : constant Entity_Id := Make_Temporary (Loc, 'L');
6249 Stub_Ptr : constant Entity_Id := Make_Temporary (Loc, 'S');
6250 -- Additional local variables for the remote case
6252 function Set_Field
6253 (Field_Name : Name_Id;
6254 Value : Node_Id) return Node_Id;
6255 -- Construct an assignment that sets the named component in the
6256 -- returned record
6258 ---------------
6259 -- Set_Field --
6260 ---------------
6262 function Set_Field
6263 (Field_Name : Name_Id;
6264 Value : Node_Id) return Node_Id
6266 begin
6267 return
6268 Make_Assignment_Statement (Loc,
6269 Name =>
6270 Make_Selected_Component (Loc,
6271 Prefix => Stub_Ptr,
6272 Selector_Name => Field_Name),
6273 Expression => Value);
6274 end Set_Field;
6276 -- Start of processing for Add_RAS_Access_TSS
6278 begin
6279 Proc_Decls := New_List (
6281 -- Common declarations
6283 Make_Object_Declaration (Loc,
6284 Defining_Identifier => Subp_Ref,
6285 Object_Definition =>
6286 New_Occurrence_Of (RTE (RE_Object_Ref), Loc)),
6288 Make_Object_Declaration (Loc,
6289 Defining_Identifier => Is_Local,
6290 Object_Definition =>
6291 New_Occurrence_Of (Standard_Boolean, Loc)),
6293 Make_Object_Declaration (Loc,
6294 Defining_Identifier => Local_Addr,
6295 Object_Definition =>
6296 New_Occurrence_Of (RTE (RE_Address), Loc)),
6298 Make_Object_Declaration (Loc,
6299 Defining_Identifier => Local_Stub,
6300 Aliased_Present => True,
6301 Object_Definition =>
6302 New_Occurrence_Of (Stub_Elements.Stub_Type, Loc)),
6304 Make_Object_Declaration (Loc,
6305 Defining_Identifier => Stub_Ptr,
6306 Object_Definition =>
6307 New_Occurrence_Of (Stub_Elements.Stub_Type_Access, Loc),
6308 Expression =>
6309 Make_Attribute_Reference (Loc,
6310 Prefix => New_Occurrence_Of (Local_Stub, Loc),
6311 Attribute_Name => Name_Unchecked_Access)));
6313 Set_Etype (Stub_Ptr, Stub_Elements.Stub_Type_Access);
6314 -- Build_Get_Unique_RP_Call needs this information
6316 -- Get_RAS_Info (Pkg, Subp, R);
6317 -- Obtain a reference to the target subprogram
6319 Proc_Statements := New_List (
6320 Make_Procedure_Call_Statement (Loc,
6321 Name => New_Occurrence_Of (RTE (RE_Get_RAS_Info), Loc),
6322 Parameter_Associations => New_List (
6323 New_Occurrence_Of (Package_Name, Loc),
6324 New_Occurrence_Of (Subp_Id, Loc),
6325 New_Occurrence_Of (Subp_Ref, Loc))),
6327 -- Get_Local_Address (R, L, A);
6328 -- Determine whether the subprogram is local (L), and if so
6329 -- obtain the local address of its proxy (A).
6331 Make_Procedure_Call_Statement (Loc,
6332 Name => New_Occurrence_Of (RTE (RE_Get_Local_Address), Loc),
6333 Parameter_Associations => New_List (
6334 New_Occurrence_Of (Subp_Ref, Loc),
6335 New_Occurrence_Of (Is_Local, Loc),
6336 New_Occurrence_Of (Local_Addr, Loc))));
6338 -- Note: Here we assume that the Fat_Type is a record containing just
6339 -- an access to a proxy or stub object.
6341 Append_To (Proc_Statements,
6343 -- if L then
6345 Make_Implicit_If_Statement (N,
6346 Condition => New_Occurrence_Of (Is_Local, Loc),
6348 Then_Statements => New_List (
6350 -- if A.Target = null then
6352 Make_Implicit_If_Statement (N,
6353 Condition =>
6354 Make_Op_Eq (Loc,
6355 Make_Selected_Component (Loc,
6356 Prefix =>
6357 Unchecked_Convert_To
6358 (RTE (RE_RAS_Proxy_Type_Access),
6359 New_Occurrence_Of (Local_Addr, Loc)),
6360 Selector_Name => Make_Identifier (Loc, Name_Target)),
6361 Make_Null (Loc)),
6363 Then_Statements => New_List (
6365 -- A.Target := Entity_Of (Ref);
6367 Make_Assignment_Statement (Loc,
6368 Name =>
6369 Make_Selected_Component (Loc,
6370 Prefix =>
6371 Unchecked_Convert_To
6372 (RTE (RE_RAS_Proxy_Type_Access),
6373 New_Occurrence_Of (Local_Addr, Loc)),
6374 Selector_Name => Make_Identifier (Loc, Name_Target)),
6375 Expression =>
6376 Make_Function_Call (Loc,
6377 Name => New_Occurrence_Of (RTE (RE_Entity_Of), Loc),
6378 Parameter_Associations => New_List (
6379 New_Occurrence_Of (Subp_Ref, Loc)))),
6381 -- Inc_Usage (A.Target);
6382 -- end if;
6384 Make_Procedure_Call_Statement (Loc,
6385 Name => New_Occurrence_Of (RTE (RE_Inc_Usage), Loc),
6386 Parameter_Associations => New_List (
6387 Make_Selected_Component (Loc,
6388 Prefix =>
6389 Unchecked_Convert_To
6390 (RTE (RE_RAS_Proxy_Type_Access),
6391 New_Occurrence_Of (Local_Addr, Loc)),
6392 Selector_Name =>
6393 Make_Identifier (Loc, Name_Target)))))),
6395 -- if not All_Calls_Remote then
6396 -- return Fat_Type!(A);
6397 -- end if;
6399 Make_Implicit_If_Statement (N,
6400 Condition =>
6401 Make_Op_Not (Loc,
6402 Right_Opnd =>
6403 New_Occurrence_Of (All_Calls_Remote, Loc)),
6405 Then_Statements => New_List (
6406 Make_Simple_Return_Statement (Loc,
6407 Expression =>
6408 Unchecked_Convert_To
6409 (Fat_Type, New_Occurrence_Of (Local_Addr, Loc))))))));
6411 Append_List_To (Proc_Statements, New_List (
6413 -- Stub.Target := Entity_Of (Ref);
6415 Set_Field (Name_Target,
6416 Make_Function_Call (Loc,
6417 Name => New_Occurrence_Of (RTE (RE_Entity_Of), Loc),
6418 Parameter_Associations => New_List (
6419 New_Occurrence_Of (Subp_Ref, Loc)))),
6421 -- Inc_Usage (Stub.Target);
6423 Make_Procedure_Call_Statement (Loc,
6424 Name => New_Occurrence_Of (RTE (RE_Inc_Usage), Loc),
6425 Parameter_Associations => New_List (
6426 Make_Selected_Component (Loc,
6427 Prefix => Stub_Ptr,
6428 Selector_Name => Name_Target))),
6430 -- E.4.1(9) A remote call is asynchronous if it is a call to
6431 -- a procedure, or a call through a value of an access-to-procedure
6432 -- type, to which a pragma Asynchronous applies.
6434 -- Parameter Asynch_P is true when the procedure is asynchronous;
6435 -- Expression Asynch_T is true when the type is asynchronous.
6437 Set_Field (Name_Asynchronous,
6438 Make_Or_Else (Loc,
6439 Left_Opnd => New_Occurrence_Of (Asynch_P, Loc),
6440 Right_Opnd =>
6441 New_Occurrence_Of
6442 (Boolean_Literals (Is_Asynchronous (Ras_Type)), Loc)))));
6444 Append_List_To (Proc_Statements,
6445 Build_Get_Unique_RP_Call (Loc, Stub_Ptr, Stub_Elements.Stub_Type));
6447 Append_To (Proc_Statements,
6448 Make_Simple_Return_Statement (Loc,
6449 Expression =>
6450 Unchecked_Convert_To (Fat_Type,
6451 New_Occurrence_Of (Stub_Ptr, Loc))));
6453 Proc_Spec :=
6454 Make_Function_Specification (Loc,
6455 Defining_Unit_Name => Proc,
6456 Parameter_Specifications => New_List (
6457 Make_Parameter_Specification (Loc,
6458 Defining_Identifier => Package_Name,
6459 Parameter_Type =>
6460 New_Occurrence_Of (Standard_String, Loc)),
6462 Make_Parameter_Specification (Loc,
6463 Defining_Identifier => Subp_Id,
6464 Parameter_Type =>
6465 New_Occurrence_Of (Standard_String, Loc)),
6467 Make_Parameter_Specification (Loc,
6468 Defining_Identifier => Asynch_P,
6469 Parameter_Type =>
6470 New_Occurrence_Of (Standard_Boolean, Loc)),
6472 Make_Parameter_Specification (Loc,
6473 Defining_Identifier => All_Calls_Remote,
6474 Parameter_Type =>
6475 New_Occurrence_Of (Standard_Boolean, Loc))),
6477 Result_Definition =>
6478 New_Occurrence_Of (Fat_Type, Loc));
6480 -- Set the kind and return type of the function to prevent
6481 -- ambiguities between Ras_Type and Fat_Type in subsequent analysis.
6483 Set_Ekind (Proc, E_Function);
6484 Set_Etype (Proc, Fat_Type);
6486 Discard_Node (
6487 Make_Subprogram_Body (Loc,
6488 Specification => Proc_Spec,
6489 Declarations => Proc_Decls,
6490 Handled_Statement_Sequence =>
6491 Make_Handled_Sequence_Of_Statements (Loc,
6492 Statements => Proc_Statements)));
6494 Set_TSS (Fat_Type, Proc);
6495 end Add_RAS_Access_TSS;
6497 ----------------------
6498 -- Add_RAS_From_Any --
6499 ----------------------
6501 procedure Add_RAS_From_Any (RAS_Type : Entity_Id) is
6502 Loc : constant Source_Ptr := Sloc (RAS_Type);
6504 Fnam : constant Entity_Id := Make_Defining_Identifier (Loc,
6505 Make_TSS_Name (RAS_Type, TSS_From_Any));
6507 Func_Spec : Node_Id;
6509 Statements : List_Id;
6511 Any_Parameter : constant Entity_Id :=
6512 Make_Defining_Identifier (Loc, Name_A);
6514 begin
6515 Statements := New_List (
6516 Make_Simple_Return_Statement (Loc,
6517 Expression =>
6518 Make_Aggregate (Loc,
6519 Component_Associations => New_List (
6520 Make_Component_Association (Loc,
6521 Choices => New_List (Make_Identifier (Loc, Name_Ras)),
6522 Expression =>
6523 PolyORB_Support.Helpers.Build_From_Any_Call
6524 (Underlying_RACW_Type (RAS_Type),
6525 New_Occurrence_Of (Any_Parameter, Loc),
6526 No_List))))));
6528 Func_Spec :=
6529 Make_Function_Specification (Loc,
6530 Defining_Unit_Name => Fnam,
6531 Parameter_Specifications => New_List (
6532 Make_Parameter_Specification (Loc,
6533 Defining_Identifier => Any_Parameter,
6534 Parameter_Type => New_Occurrence_Of (RTE (RE_Any), Loc))),
6535 Result_Definition => New_Occurrence_Of (RAS_Type, Loc));
6537 Discard_Node (
6538 Make_Subprogram_Body (Loc,
6539 Specification => Func_Spec,
6540 Declarations => No_List,
6541 Handled_Statement_Sequence =>
6542 Make_Handled_Sequence_Of_Statements (Loc,
6543 Statements => Statements)));
6544 Set_TSS (RAS_Type, Fnam);
6545 end Add_RAS_From_Any;
6547 --------------------
6548 -- Add_RAS_To_Any --
6549 --------------------
6551 procedure Add_RAS_To_Any (RAS_Type : Entity_Id) is
6552 Loc : constant Source_Ptr := Sloc (RAS_Type);
6554 Fnam : constant Entity_Id := Make_Defining_Identifier (Loc,
6555 Make_TSS_Name (RAS_Type, TSS_To_Any));
6557 Decls : List_Id;
6558 Statements : List_Id;
6560 Func_Spec : Node_Id;
6562 Any : constant Entity_Id := Make_Temporary (Loc, 'A');
6563 RAS_Parameter : constant Entity_Id := Make_Temporary (Loc, 'R');
6564 RACW_Parameter : constant Node_Id :=
6565 Make_Selected_Component (Loc,
6566 Prefix => RAS_Parameter,
6567 Selector_Name => Name_Ras);
6569 begin
6570 -- Object declarations
6572 Set_Etype (RACW_Parameter, Underlying_RACW_Type (RAS_Type));
6573 Decls := New_List (
6574 Make_Object_Declaration (Loc,
6575 Defining_Identifier => Any,
6576 Object_Definition => New_Occurrence_Of (RTE (RE_Any), Loc),
6577 Expression =>
6578 PolyORB_Support.Helpers.Build_To_Any_Call
6579 (Loc, RACW_Parameter, No_List)));
6581 Statements := New_List (
6582 Make_Procedure_Call_Statement (Loc,
6583 Name => New_Occurrence_Of (RTE (RE_Set_TC), Loc),
6584 Parameter_Associations => New_List (
6585 New_Occurrence_Of (Any, Loc),
6586 PolyORB_Support.Helpers.Build_TypeCode_Call (Loc,
6587 RAS_Type, Decls))),
6589 Make_Simple_Return_Statement (Loc,
6590 Expression => New_Occurrence_Of (Any, Loc)));
6592 Func_Spec :=
6593 Make_Function_Specification (Loc,
6594 Defining_Unit_Name => Fnam,
6595 Parameter_Specifications => New_List (
6596 Make_Parameter_Specification (Loc,
6597 Defining_Identifier => RAS_Parameter,
6598 Parameter_Type => New_Occurrence_Of (RAS_Type, Loc))),
6599 Result_Definition => New_Occurrence_Of (RTE (RE_Any), Loc));
6601 Discard_Node (
6602 Make_Subprogram_Body (Loc,
6603 Specification => Func_Spec,
6604 Declarations => Decls,
6605 Handled_Statement_Sequence =>
6606 Make_Handled_Sequence_Of_Statements (Loc,
6607 Statements => Statements)));
6608 Set_TSS (RAS_Type, Fnam);
6609 end Add_RAS_To_Any;
6611 ----------------------
6612 -- Add_RAS_TypeCode --
6613 ----------------------
6615 procedure Add_RAS_TypeCode (RAS_Type : Entity_Id) is
6616 Loc : constant Source_Ptr := Sloc (RAS_Type);
6618 Fnam : constant Entity_Id := Make_Defining_Identifier (Loc,
6619 Make_TSS_Name (RAS_Type, TSS_TypeCode));
6621 Func_Spec : Node_Id;
6622 Decls : constant List_Id := New_List;
6623 Name_String : String_Id;
6624 Repo_Id_String : String_Id;
6626 begin
6627 Func_Spec :=
6628 Make_Function_Specification (Loc,
6629 Defining_Unit_Name => Fnam,
6630 Result_Definition => New_Occurrence_Of (RTE (RE_TypeCode), Loc));
6632 PolyORB_Support.Helpers.Build_Name_And_Repository_Id
6633 (RAS_Type, Name_Str => Name_String, Repo_Id_Str => Repo_Id_String);
6635 Discard_Node (
6636 Make_Subprogram_Body (Loc,
6637 Specification => Func_Spec,
6638 Declarations => Decls,
6639 Handled_Statement_Sequence =>
6640 Make_Handled_Sequence_Of_Statements (Loc,
6641 Statements => New_List (
6642 Make_Simple_Return_Statement (Loc,
6643 Expression =>
6644 Make_Function_Call (Loc,
6645 Name =>
6646 New_Occurrence_Of (RTE (RE_Build_Complex_TC), Loc),
6647 Parameter_Associations => New_List (
6648 New_Occurrence_Of (RTE (RE_Tk_Objref), Loc),
6649 Make_Aggregate (Loc,
6650 Expressions =>
6651 New_List (
6652 Make_Function_Call (Loc,
6653 Name =>
6654 New_Occurrence_Of
6655 (RTE (RE_TA_Std_String), Loc),
6656 Parameter_Associations => New_List (
6657 Make_String_Literal (Loc, Name_String))),
6658 Make_Function_Call (Loc,
6659 Name =>
6660 New_Occurrence_Of
6661 (RTE (RE_TA_Std_String), Loc),
6662 Parameter_Associations => New_List (
6663 Make_String_Literal (Loc,
6664 Strval => Repo_Id_String))))))))))));
6665 Set_TSS (RAS_Type, Fnam);
6666 end Add_RAS_TypeCode;
6668 -----------------------------------------
6669 -- Add_Receiving_Stubs_To_Declarations --
6670 -----------------------------------------
6672 procedure Add_Receiving_Stubs_To_Declarations
6673 (Pkg_Spec : Node_Id;
6674 Decls : List_Id;
6675 Stmts : List_Id)
6677 Loc : constant Source_Ptr := Sloc (Pkg_Spec);
6679 Pkg_RPC_Receiver : constant Entity_Id :=
6680 Make_Temporary (Loc, 'H');
6681 Pkg_RPC_Receiver_Object : Node_Id;
6682 Pkg_RPC_Receiver_Body : Node_Id;
6683 Pkg_RPC_Receiver_Decls : List_Id;
6684 Pkg_RPC_Receiver_Statements : List_Id;
6686 Pkg_RPC_Receiver_Cases : constant List_Id := New_List;
6687 -- A Pkg_RPC_Receiver is built to decode the request
6689 Request : Node_Id;
6690 -- Request object received from neutral layer
6692 Subp_Id : Entity_Id;
6693 -- Subprogram identifier as received from the neutral distribution
6694 -- core.
6696 Subp_Index : Entity_Id;
6697 -- Internal index as determined by matching either the method name
6698 -- from the request structure, or the local subprogram address (in
6699 -- case of a RAS).
6701 Is_Local : constant Entity_Id := Make_Temporary (Loc, 'L');
6703 Local_Address : constant Entity_Id := Make_Temporary (Loc, 'A');
6704 -- Address of a local subprogram designated by a reference
6705 -- corresponding to a RAS.
6707 Dispatch_On_Address : constant List_Id := New_List;
6708 Dispatch_On_Name : constant List_Id := New_List;
6710 Current_Subp_Number : Int := First_RCI_Subprogram_Id;
6712 Subp_Info_Array : constant Entity_Id := Make_Temporary (Loc, 'I');
6713 Subp_Info_List : constant List_Id := New_List;
6715 Register_Pkg_Actuals : constant List_Id := New_List;
6717 All_Calls_Remote_E : Entity_Id;
6719 procedure Append_Stubs_To
6720 (RPC_Receiver_Cases : List_Id;
6721 Declaration : Node_Id;
6722 Stubs : Node_Id;
6723 Subp_Number : Int;
6724 Subp_Dist_Name : Entity_Id;
6725 Subp_Proxy_Addr : Entity_Id);
6726 -- Add one case to the specified RPC receiver case list associating
6727 -- Subprogram_Number with the subprogram declared by Declaration, for
6728 -- which we have receiving stubs in Stubs. Subp_Number is an internal
6729 -- subprogram index. Subp_Dist_Name is the string used to call the
6730 -- subprogram by name, and Subp_Dist_Addr is the address of the proxy
6731 -- object, used in the context of calls through remote
6732 -- access-to-subprogram types.
6734 procedure Visit_Subprogram (Decl : Node_Id);
6735 -- Generate receiving stub for one remote subprogram
6737 ---------------------
6738 -- Append_Stubs_To --
6739 ---------------------
6741 procedure Append_Stubs_To
6742 (RPC_Receiver_Cases : List_Id;
6743 Declaration : Node_Id;
6744 Stubs : Node_Id;
6745 Subp_Number : Int;
6746 Subp_Dist_Name : Entity_Id;
6747 Subp_Proxy_Addr : Entity_Id)
6749 Case_Stmts : List_Id;
6750 begin
6751 Case_Stmts := New_List (
6752 Make_Procedure_Call_Statement (Loc,
6753 Name =>
6754 New_Occurrence_Of (
6755 Defining_Entity (Stubs), Loc),
6756 Parameter_Associations =>
6757 New_List (New_Occurrence_Of (Request, Loc))));
6759 if Nkind (Specification (Declaration)) = N_Function_Specification
6760 or else not
6761 Is_Asynchronous (Defining_Entity (Specification (Declaration)))
6762 then
6763 Append_To (Case_Stmts, Make_Simple_Return_Statement (Loc));
6764 end if;
6766 Append_To (RPC_Receiver_Cases,
6767 Make_Case_Statement_Alternative (Loc,
6768 Discrete_Choices =>
6769 New_List (Make_Integer_Literal (Loc, Subp_Number)),
6770 Statements => Case_Stmts));
6772 Append_To (Dispatch_On_Name,
6773 Make_Elsif_Part (Loc,
6774 Condition =>
6775 Make_Function_Call (Loc,
6776 Name =>
6777 New_Occurrence_Of (RTE (RE_Caseless_String_Eq), Loc),
6778 Parameter_Associations => New_List (
6779 New_Occurrence_Of (Subp_Id, Loc),
6780 New_Occurrence_Of (Subp_Dist_Name, Loc))),
6782 Then_Statements => New_List (
6783 Make_Assignment_Statement (Loc,
6784 New_Occurrence_Of (Subp_Index, Loc),
6785 Make_Integer_Literal (Loc, Subp_Number)))));
6787 Append_To (Dispatch_On_Address,
6788 Make_Elsif_Part (Loc,
6789 Condition =>
6790 Make_Op_Eq (Loc,
6791 Left_Opnd => New_Occurrence_Of (Local_Address, Loc),
6792 Right_Opnd => New_Occurrence_Of (Subp_Proxy_Addr, Loc)),
6794 Then_Statements => New_List (
6795 Make_Assignment_Statement (Loc,
6796 New_Occurrence_Of (Subp_Index, Loc),
6797 Make_Integer_Literal (Loc, Subp_Number)))));
6798 end Append_Stubs_To;
6800 ----------------------
6801 -- Visit_Subprogram --
6802 ----------------------
6804 procedure Visit_Subprogram (Decl : Node_Id) is
6805 Loc : constant Source_Ptr := Sloc (Decl);
6806 Spec : constant Node_Id := Specification (Decl);
6807 Subp_Def : constant Entity_Id := Defining_Unit_Name (Spec);
6809 Subp_Val : String_Id;
6811 Subp_Dist_Name : constant Entity_Id :=
6812 Make_Defining_Identifier (Loc,
6813 Chars =>
6814 New_External_Name
6815 (Related_Id => Chars (Subp_Def),
6816 Suffix => 'D',
6817 Suffix_Index => -1));
6819 Current_Stubs : Node_Id;
6820 Proxy_Obj_Addr : Entity_Id;
6822 begin
6823 -- Disable expansion of stubs if serious errors have been
6824 -- diagnosed, because otherwise some illegal remote subprogram
6825 -- declarations could cause cascaded errors in stubs.
6827 if Serious_Errors_Detected /= 0 then
6828 return;
6829 end if;
6831 -- Build receiving stub
6833 Current_Stubs :=
6834 Build_Subprogram_Receiving_Stubs
6835 (Vis_Decl => Decl,
6836 Asynchronous => Nkind (Spec) = N_Procedure_Specification
6837 and then Is_Asynchronous (Subp_Def));
6839 Append_To (Decls, Current_Stubs);
6840 Analyze (Current_Stubs);
6842 -- Build RAS proxy
6844 Add_RAS_Proxy_And_Analyze (Decls,
6845 Vis_Decl => Decl,
6846 All_Calls_Remote_E => All_Calls_Remote_E,
6847 Proxy_Object_Addr => Proxy_Obj_Addr);
6849 -- Compute distribution identifier
6851 Assign_Subprogram_Identifier
6852 (Subp_Def, Current_Subp_Number, Subp_Val);
6854 pragma Assert
6855 (Current_Subp_Number = Get_Subprogram_Id (Subp_Def));
6857 Append_To (Decls,
6858 Make_Object_Declaration (Loc,
6859 Defining_Identifier => Subp_Dist_Name,
6860 Constant_Present => True,
6861 Object_Definition =>
6862 New_Occurrence_Of (Standard_String, Loc),
6863 Expression =>
6864 Make_String_Literal (Loc, Subp_Val)));
6865 Analyze (Last (Decls));
6867 -- Add subprogram descriptor (RCI_Subp_Info) to the subprograms
6868 -- table for this receiver. The aggregate below must be kept
6869 -- consistent with the declaration of RCI_Subp_Info in
6870 -- System.Partition_Interface.
6872 Append_To (Subp_Info_List,
6873 Make_Component_Association (Loc,
6874 Choices =>
6875 New_List (Make_Integer_Literal (Loc, Current_Subp_Number)),
6877 Expression =>
6878 Make_Aggregate (Loc,
6879 Expressions => New_List (
6881 -- Name =>
6883 Make_Attribute_Reference (Loc,
6884 Prefix =>
6885 New_Occurrence_Of (Subp_Dist_Name, Loc),
6886 Attribute_Name => Name_Address),
6888 -- Name_Length =>
6890 Make_Attribute_Reference (Loc,
6891 Prefix =>
6892 New_Occurrence_Of (Subp_Dist_Name, Loc),
6893 Attribute_Name => Name_Length),
6895 -- Addr =>
6897 New_Occurrence_Of (Proxy_Obj_Addr, Loc)))));
6899 Append_Stubs_To (Pkg_RPC_Receiver_Cases,
6900 Declaration => Decl,
6901 Stubs => Current_Stubs,
6902 Subp_Number => Current_Subp_Number,
6903 Subp_Dist_Name => Subp_Dist_Name,
6904 Subp_Proxy_Addr => Proxy_Obj_Addr);
6906 Current_Subp_Number := Current_Subp_Number + 1;
6907 end Visit_Subprogram;
6909 procedure Visit_Spec is new Build_Package_Stubs (Visit_Subprogram);
6911 -- Start of processing for Add_Receiving_Stubs_To_Declarations
6913 begin
6914 -- Building receiving stubs consist in several operations:
6916 -- - a package RPC receiver must be built. This subprogram will get
6917 -- a Subprogram_Id from the incoming stream and will dispatch the
6918 -- call to the right subprogram;
6920 -- - a receiving stub for each subprogram visible in the package
6921 -- spec. This stub will read all the parameters from the stream,
6922 -- and put the result as well as the exception occurrence in the
6923 -- output stream;
6925 Build_RPC_Receiver_Body (
6926 RPC_Receiver => Pkg_RPC_Receiver,
6927 Request => Request,
6928 Subp_Id => Subp_Id,
6929 Subp_Index => Subp_Index,
6930 Stmts => Pkg_RPC_Receiver_Statements,
6931 Decl => Pkg_RPC_Receiver_Body);
6932 Pkg_RPC_Receiver_Decls := Declarations (Pkg_RPC_Receiver_Body);
6934 -- Extract local address information from the target reference:
6935 -- if non-null, that means that this is a reference that denotes
6936 -- one particular operation, and hence that the operation name
6937 -- must not be taken into account for dispatching.
6939 Append_To (Pkg_RPC_Receiver_Decls,
6940 Make_Object_Declaration (Loc,
6941 Defining_Identifier => Is_Local,
6942 Object_Definition =>
6943 New_Occurrence_Of (Standard_Boolean, Loc)));
6945 Append_To (Pkg_RPC_Receiver_Decls,
6946 Make_Object_Declaration (Loc,
6947 Defining_Identifier => Local_Address,
6948 Object_Definition =>
6949 New_Occurrence_Of (RTE (RE_Address), Loc)));
6951 Append_To (Pkg_RPC_Receiver_Statements,
6952 Make_Procedure_Call_Statement (Loc,
6953 Name => New_Occurrence_Of (RTE (RE_Get_Local_Address), Loc),
6954 Parameter_Associations => New_List (
6955 Make_Selected_Component (Loc,
6956 Prefix => Request,
6957 Selector_Name => Name_Target),
6958 New_Occurrence_Of (Is_Local, Loc),
6959 New_Occurrence_Of (Local_Address, Loc))));
6961 -- For each subprogram, the receiving stub will be built and a case
6962 -- statement will be made on the Subprogram_Id to dispatch to the
6963 -- right subprogram.
6965 All_Calls_Remote_E := Boolean_Literals (
6966 Has_All_Calls_Remote (Defining_Entity (Pkg_Spec)));
6968 Overload_Counter_Table.Reset;
6969 Reserve_NamingContext_Methods;
6971 Visit_Spec (Pkg_Spec);
6973 Append_To (Decls,
6974 Make_Object_Declaration (Loc,
6975 Defining_Identifier => Subp_Info_Array,
6976 Constant_Present => True,
6977 Aliased_Present => True,
6978 Object_Definition =>
6979 Make_Subtype_Indication (Loc,
6980 Subtype_Mark =>
6981 New_Occurrence_Of (RTE (RE_RCI_Subp_Info_Array), Loc),
6982 Constraint =>
6983 Make_Index_Or_Discriminant_Constraint (Loc,
6984 New_List (
6985 Make_Range (Loc,
6986 Low_Bound =>
6987 Make_Integer_Literal (Loc,
6988 Intval => First_RCI_Subprogram_Id),
6989 High_Bound =>
6990 Make_Integer_Literal (Loc,
6991 Intval =>
6992 First_RCI_Subprogram_Id
6993 + List_Length (Subp_Info_List) - 1)))))));
6995 if Present (First (Subp_Info_List)) then
6996 Set_Expression (Last (Decls),
6997 Make_Aggregate (Loc,
6998 Component_Associations => Subp_Info_List));
7000 -- Generate the dispatch statement to determine the subprogram id
7001 -- of the called subprogram.
7003 -- We first test whether the reference that was used to make the
7004 -- call was the base RCI reference (in which case Local_Address is
7005 -- zero, and the method identifier from the request must be used
7006 -- to determine which subprogram is called) or a reference
7007 -- identifying one particular subprogram (in which case
7008 -- Local_Address is the address of that subprogram, and the
7009 -- method name from the request is ignored). The latter occurs
7010 -- for the case of a call through a remote access-to-subprogram.
7012 -- In each case, cascaded elsifs are used to determine the proper
7013 -- subprogram index. Using hash tables might be more efficient.
7015 Append_To (Pkg_RPC_Receiver_Statements,
7016 Make_Implicit_If_Statement (Pkg_Spec,
7017 Condition =>
7018 Make_Op_Ne (Loc,
7019 Left_Opnd => New_Occurrence_Of (Local_Address, Loc),
7020 Right_Opnd => New_Occurrence_Of
7021 (RTE (RE_Null_Address), Loc)),
7023 Then_Statements => New_List (
7024 Make_Implicit_If_Statement (Pkg_Spec,
7025 Condition => New_Occurrence_Of (Standard_False, Loc),
7026 Then_Statements => New_List (
7027 Make_Null_Statement (Loc)),
7028 Elsif_Parts => Dispatch_On_Address)),
7030 Else_Statements => New_List (
7031 Make_Implicit_If_Statement (Pkg_Spec,
7032 Condition => New_Occurrence_Of (Standard_False, Loc),
7033 Then_Statements => New_List (Make_Null_Statement (Loc)),
7034 Elsif_Parts => Dispatch_On_Name))));
7036 else
7037 -- For a degenerate RCI with no visible subprograms,
7038 -- Subp_Info_List has zero length, and the declaration is for an
7039 -- empty array, in which case no initialization aggregate must be
7040 -- generated. We do not generate a Dispatch_Statement either.
7042 -- No initialization provided: remove CONSTANT so that the
7043 -- declaration is not an incomplete deferred constant.
7045 Set_Constant_Present (Last (Decls), False);
7046 end if;
7048 -- Analyze Subp_Info_Array declaration
7050 Analyze (Last (Decls));
7052 -- If we receive an invalid Subprogram_Id, it is best to do nothing
7053 -- rather than raising an exception since we do not want someone
7054 -- to crash a remote partition by sending invalid subprogram ids.
7055 -- This is consistent with the other parts of the case statement
7056 -- since even in presence of incorrect parameters in the stream,
7057 -- every exception will be caught and (if the subprogram is not an
7058 -- APC) put into the result stream and sent away.
7060 Append_To (Pkg_RPC_Receiver_Cases,
7061 Make_Case_Statement_Alternative (Loc,
7062 Discrete_Choices => New_List (Make_Others_Choice (Loc)),
7063 Statements => New_List (Make_Null_Statement (Loc))));
7065 Append_To (Pkg_RPC_Receiver_Statements,
7066 Make_Case_Statement (Loc,
7067 Expression => New_Occurrence_Of (Subp_Index, Loc),
7068 Alternatives => Pkg_RPC_Receiver_Cases));
7070 -- Pkg_RPC_Receiver body is now complete: insert it into the tree and
7071 -- analyze it.
7073 Append_To (Decls, Pkg_RPC_Receiver_Body);
7074 Analyze (Last (Decls));
7076 Pkg_RPC_Receiver_Object :=
7077 Make_Object_Declaration (Loc,
7078 Defining_Identifier => Make_Temporary (Loc, 'R'),
7079 Aliased_Present => True,
7080 Object_Definition => New_Occurrence_Of (RTE (RE_Servant), Loc));
7081 Append_To (Decls, Pkg_RPC_Receiver_Object);
7082 Analyze (Last (Decls));
7084 -- Name
7086 Append_To (Register_Pkg_Actuals,
7087 Make_String_Literal (Loc,
7088 Strval =>
7089 Fully_Qualified_Name_String
7090 (Defining_Entity (Pkg_Spec), Append_NUL => False)));
7092 -- Version
7094 Append_To (Register_Pkg_Actuals,
7095 Make_Attribute_Reference (Loc,
7096 Prefix =>
7097 New_Occurrence_Of
7098 (Defining_Entity (Pkg_Spec), Loc),
7099 Attribute_Name => Name_Version));
7101 -- Handler
7103 Append_To (Register_Pkg_Actuals,
7104 Make_Attribute_Reference (Loc,
7105 Prefix =>
7106 New_Occurrence_Of (Pkg_RPC_Receiver, Loc),
7107 Attribute_Name => Name_Access));
7109 -- Receiver
7111 Append_To (Register_Pkg_Actuals,
7112 Make_Attribute_Reference (Loc,
7113 Prefix =>
7114 New_Occurrence_Of (
7115 Defining_Identifier (Pkg_RPC_Receiver_Object), Loc),
7116 Attribute_Name => Name_Access));
7118 -- Subp_Info
7120 Append_To (Register_Pkg_Actuals,
7121 Make_Attribute_Reference (Loc,
7122 Prefix => New_Occurrence_Of (Subp_Info_Array, Loc),
7123 Attribute_Name => Name_Address));
7125 -- Subp_Info_Len
7127 Append_To (Register_Pkg_Actuals,
7128 Make_Attribute_Reference (Loc,
7129 Prefix => New_Occurrence_Of (Subp_Info_Array, Loc),
7130 Attribute_Name => Name_Length));
7132 -- Is_All_Calls_Remote
7134 Append_To (Register_Pkg_Actuals,
7135 New_Occurrence_Of (All_Calls_Remote_E, Loc));
7137 -- Finally call Register_Pkg_Receiving_Stub with the above parameters
7139 Append_To (Stmts,
7140 Make_Procedure_Call_Statement (Loc,
7141 Name =>
7142 New_Occurrence_Of (RTE (RE_Register_Pkg_Receiving_Stub), Loc),
7143 Parameter_Associations => Register_Pkg_Actuals));
7144 Analyze (Last (Stmts));
7145 end Add_Receiving_Stubs_To_Declarations;
7147 ---------------------------------
7148 -- Build_General_Calling_Stubs --
7149 ---------------------------------
7151 procedure Build_General_Calling_Stubs
7152 (Decls : List_Id;
7153 Statements : List_Id;
7154 Target_Object : Node_Id;
7155 Subprogram_Id : Node_Id;
7156 Asynchronous : Node_Id := Empty;
7157 Is_Known_Asynchronous : Boolean := False;
7158 Is_Known_Non_Asynchronous : Boolean := False;
7159 Is_Function : Boolean;
7160 Spec : Node_Id;
7161 Stub_Type : Entity_Id := Empty;
7162 RACW_Type : Entity_Id := Empty;
7163 Nod : Node_Id)
7165 Loc : constant Source_Ptr := Sloc (Nod);
7167 Request : constant Entity_Id := Make_Temporary (Loc, 'R');
7168 -- The request object constructed by these stubs
7169 -- Could we use Name_R instead??? (see GLADE client stubs)
7171 function Make_Request_RTE_Call
7172 (RE : RE_Id;
7173 Actuals : List_Id := New_List) return Node_Id;
7174 -- Generate a procedure call statement calling RE with the given
7175 -- actuals. Request'Access is appended to the list.
7177 ---------------------------
7178 -- Make_Request_RTE_Call --
7179 ---------------------------
7181 function Make_Request_RTE_Call
7182 (RE : RE_Id;
7183 Actuals : List_Id := New_List) return Node_Id
7185 begin
7186 Append_To (Actuals,
7187 Make_Attribute_Reference (Loc,
7188 Prefix => New_Occurrence_Of (Request, Loc),
7189 Attribute_Name => Name_Access));
7190 return Make_Procedure_Call_Statement (Loc,
7191 Name =>
7192 New_Occurrence_Of (RTE (RE), Loc),
7193 Parameter_Associations => Actuals);
7194 end Make_Request_RTE_Call;
7196 Arguments : Node_Id;
7197 -- Name of the named values list used to transmit parameters
7198 -- to the remote package
7200 Result : Node_Id;
7201 -- Name of the result named value (in non-APC cases) which get the
7202 -- result of the remote subprogram.
7204 Result_TC : Node_Id;
7205 -- Typecode expression for the result of the request (void
7206 -- typecode for procedures).
7208 Exception_Return_Parameter : Node_Id;
7209 -- Name of the parameter which will hold the exception sent by the
7210 -- remote subprogram.
7212 Current_Parameter : Node_Id;
7213 -- Current parameter being handled
7215 Ordered_Parameters_List : constant List_Id :=
7216 Build_Ordered_Parameters_List (Spec);
7218 Asynchronous_P : Node_Id;
7219 -- A Boolean expression indicating whether this call is asynchronous
7221 Asynchronous_Statements : List_Id := No_List;
7222 Non_Asynchronous_Statements : List_Id := No_List;
7223 -- Statements specifics to the Asynchronous/Non-Asynchronous cases
7225 Extra_Formal_Statements : constant List_Id := New_List;
7226 -- List of statements for extra formal parameters. It will appear
7227 -- after the regular statements for writing out parameters.
7229 After_Statements : constant List_Id := New_List;
7230 -- Statements to be executed after call returns (to assign IN OUT or
7231 -- OUT parameter values).
7233 Etyp : Entity_Id;
7234 -- The type of the formal parameter being processed
7236 Is_Controlling_Formal : Boolean;
7237 Is_First_Controlling_Formal : Boolean;
7238 First_Controlling_Formal_Seen : Boolean := False;
7239 -- Controlling formal parameters of distributed object primitives
7240 -- require special handling, and the first such parameter needs even
7241 -- more special handling.
7243 begin
7244 -- ??? document general form of stub subprograms for the PolyORB case
7246 Append_To (Decls,
7247 Make_Object_Declaration (Loc,
7248 Defining_Identifier => Request,
7249 Aliased_Present => True,
7250 Object_Definition =>
7251 New_Occurrence_Of (RTE (RE_Request), Loc)));
7253 Result := Make_Temporary (Loc, 'R');
7255 if Is_Function then
7256 Result_TC :=
7257 PolyORB_Support.Helpers.Build_TypeCode_Call
7258 (Loc, Etype (Result_Definition (Spec)), Decls);
7259 else
7260 Result_TC := New_Occurrence_Of (RTE (RE_TC_Void), Loc);
7261 end if;
7263 Append_To (Decls,
7264 Make_Object_Declaration (Loc,
7265 Defining_Identifier => Result,
7266 Aliased_Present => False,
7267 Object_Definition =>
7268 New_Occurrence_Of (RTE (RE_NamedValue), Loc),
7269 Expression =>
7270 Make_Aggregate (Loc,
7271 Component_Associations => New_List (
7272 Make_Component_Association (Loc,
7273 Choices => New_List (Make_Identifier (Loc, Name_Name)),
7274 Expression =>
7275 New_Occurrence_Of (RTE (RE_Result_Name), Loc)),
7276 Make_Component_Association (Loc,
7277 Choices => New_List (
7278 Make_Identifier (Loc, Name_Argument)),
7279 Expression =>
7280 Make_Function_Call (Loc,
7281 Name => New_Occurrence_Of (RTE (RE_Create_Any), Loc),
7282 Parameter_Associations => New_List (Result_TC))),
7283 Make_Component_Association (Loc,
7284 Choices => New_List (
7285 Make_Identifier (Loc, Name_Arg_Modes)),
7286 Expression => Make_Integer_Literal (Loc, 0))))));
7288 if not Is_Known_Asynchronous then
7289 Exception_Return_Parameter := Make_Temporary (Loc, 'E');
7291 Append_To (Decls,
7292 Make_Object_Declaration (Loc,
7293 Defining_Identifier => Exception_Return_Parameter,
7294 Object_Definition =>
7295 New_Occurrence_Of (RTE (RE_Exception_Occurrence), Loc)));
7297 else
7298 Exception_Return_Parameter := Empty;
7299 end if;
7301 -- Initialize and fill in arguments list
7303 Arguments := Make_Temporary (Loc, 'A');
7304 Declare_Create_NVList (Loc, Arguments, Decls, Statements);
7306 Current_Parameter := First (Ordered_Parameters_List);
7307 while Present (Current_Parameter) loop
7308 if Is_RACW_Controlling_Formal (Current_Parameter, Stub_Type) then
7309 Is_Controlling_Formal := True;
7310 Is_First_Controlling_Formal :=
7311 not First_Controlling_Formal_Seen;
7312 First_Controlling_Formal_Seen := True;
7314 else
7315 Is_Controlling_Formal := False;
7316 Is_First_Controlling_Formal := False;
7317 end if;
7319 if Is_Controlling_Formal then
7321 -- For a controlling formal argument, we send its reference
7323 Etyp := RACW_Type;
7325 else
7326 Etyp := Etype (Parameter_Type (Current_Parameter));
7327 end if;
7329 -- The first controlling formal parameter is treated specially:
7330 -- it is used to set the target object of the call.
7332 if not Is_First_Controlling_Formal then
7333 declare
7334 Constrained : constant Boolean :=
7335 Is_Constrained (Etyp)
7336 or else Is_Elementary_Type (Etyp);
7338 Any : constant Entity_Id := Make_Temporary (Loc, 'A');
7340 Actual_Parameter : Node_Id :=
7341 New_Occurrence_Of (
7342 Defining_Identifier (
7343 Current_Parameter), Loc);
7345 Expr : Node_Id;
7347 begin
7348 if Is_Controlling_Formal then
7350 -- For a controlling formal parameter (other than the
7351 -- first one), use the corresponding RACW. If the
7352 -- parameter is not an anonymous access parameter, that
7353 -- involves taking its 'Unrestricted_Access.
7355 if Nkind (Parameter_Type (Current_Parameter))
7356 = N_Access_Definition
7357 then
7358 Actual_Parameter := OK_Convert_To
7359 (Etyp, Actual_Parameter);
7360 else
7361 Actual_Parameter := OK_Convert_To (Etyp,
7362 Make_Attribute_Reference (Loc,
7363 Prefix => Actual_Parameter,
7364 Attribute_Name => Name_Unrestricted_Access));
7365 end if;
7367 end if;
7369 if In_Present (Current_Parameter)
7370 or else not Out_Present (Current_Parameter)
7371 or else not Constrained
7372 or else Is_Controlling_Formal
7373 then
7374 -- The parameter has an input value, is constrained at
7375 -- runtime by an input value, or is a controlling formal
7376 -- parameter (always passed as a reference) other than
7377 -- the first one.
7379 Expr := PolyORB_Support.Helpers.Build_To_Any_Call
7380 (Loc, Actual_Parameter, Decls);
7382 else
7383 Expr := Make_Function_Call (Loc,
7384 Name => New_Occurrence_Of (RTE (RE_Create_Any), Loc),
7385 Parameter_Associations => New_List (
7386 PolyORB_Support.Helpers.Build_TypeCode_Call
7387 (Loc, Etyp, Decls)));
7388 end if;
7390 Append_To (Decls,
7391 Make_Object_Declaration (Loc,
7392 Defining_Identifier => Any,
7393 Aliased_Present => False,
7394 Object_Definition =>
7395 New_Occurrence_Of (RTE (RE_Any), Loc),
7396 Expression => Expr));
7398 Append_To (Statements,
7399 Add_Parameter_To_NVList (Loc,
7400 Parameter => Current_Parameter,
7401 NVList => Arguments,
7402 Constrained => Constrained,
7403 Any => Any));
7405 if Out_Present (Current_Parameter)
7406 and then not Is_Controlling_Formal
7407 then
7408 if Is_Limited_Type (Etyp) then
7409 Helpers.Assign_Opaque_From_Any (Loc,
7410 Stms => After_Statements,
7411 Typ => Etyp,
7412 N => New_Occurrence_Of (Any, Loc),
7413 Target =>
7414 Defining_Identifier (Current_Parameter),
7415 Constrained => True);
7417 else
7418 Append_To (After_Statements,
7419 Make_Assignment_Statement (Loc,
7420 Name =>
7421 New_Occurrence_Of (
7422 Defining_Identifier (Current_Parameter), Loc),
7423 Expression =>
7424 PolyORB_Support.Helpers.Build_From_Any_Call
7425 (Etyp,
7426 New_Occurrence_Of (Any, Loc),
7427 Decls)));
7428 end if;
7429 end if;
7430 end;
7431 end if;
7433 -- If the current parameter has a dynamic constrained status, then
7434 -- this status is transmitted as well.
7436 -- This should be done for accessibility as well ???
7438 if Nkind (Parameter_Type (Current_Parameter)) /=
7439 N_Access_Definition
7440 and then Need_Extra_Constrained (Current_Parameter)
7441 then
7442 -- In this block, we do not use the extra formal that has been
7443 -- created because it does not exist at the time of expansion
7444 -- when building calling stubs for remote access to subprogram
7445 -- types. We create an extra variable of this type and push it
7446 -- in the stream after the regular parameters.
7448 declare
7449 Extra_Any_Parameter : constant Entity_Id :=
7450 Make_Temporary (Loc, 'P');
7452 Parameter_Exp : constant Node_Id :=
7453 Make_Attribute_Reference (Loc,
7454 Prefix => New_Occurrence_Of (
7455 Defining_Identifier (Current_Parameter), Loc),
7456 Attribute_Name => Name_Constrained);
7458 begin
7459 Set_Etype (Parameter_Exp, Etype (Standard_Boolean));
7461 Append_To (Decls,
7462 Make_Object_Declaration (Loc,
7463 Defining_Identifier => Extra_Any_Parameter,
7464 Aliased_Present => False,
7465 Object_Definition =>
7466 New_Occurrence_Of (RTE (RE_Any), Loc),
7467 Expression =>
7468 PolyORB_Support.Helpers.Build_To_Any_Call
7469 (Loc, Parameter_Exp, Decls)));
7471 Append_To (Extra_Formal_Statements,
7472 Add_Parameter_To_NVList (Loc,
7473 Parameter => Extra_Any_Parameter,
7474 NVList => Arguments,
7475 Constrained => True,
7476 Any => Extra_Any_Parameter));
7477 end;
7478 end if;
7480 Next (Current_Parameter);
7481 end loop;
7483 -- Append the formal statements list to the statements
7485 Append_List_To (Statements, Extra_Formal_Statements);
7487 Append_To (Statements,
7488 Make_Procedure_Call_Statement (Loc,
7489 Name =>
7490 New_Occurrence_Of (RTE (RE_Request_Setup), Loc),
7491 Parameter_Associations => New_List (
7492 New_Occurrence_Of (Request, Loc),
7493 Target_Object,
7494 Subprogram_Id,
7495 New_Occurrence_Of (Arguments, Loc),
7496 New_Occurrence_Of (Result, Loc),
7497 New_Occurrence_Of (RTE (RE_Nil_Exc_List), Loc))));
7499 pragma Assert
7500 (not (Is_Known_Non_Asynchronous and Is_Known_Asynchronous));
7502 if Is_Known_Non_Asynchronous or Is_Known_Asynchronous then
7503 Asynchronous_P :=
7504 New_Occurrence_Of
7505 (Boolean_Literals (Is_Known_Asynchronous), Loc);
7507 else
7508 pragma Assert (Present (Asynchronous));
7509 Asynchronous_P := New_Copy_Tree (Asynchronous);
7511 -- The expression node Asynchronous will be used to build an 'if'
7512 -- statement at the end of Build_General_Calling_Stubs: we need to
7513 -- make a copy here.
7514 end if;
7516 Append_To (Parameter_Associations (Last (Statements)),
7517 Make_Indexed_Component (Loc,
7518 Prefix =>
7519 New_Occurrence_Of (
7520 RTE (RE_Asynchronous_P_To_Sync_Scope), Loc),
7521 Expressions => New_List (Asynchronous_P)));
7523 Append_To (Statements, Make_Request_RTE_Call (RE_Request_Invoke));
7525 -- Asynchronous case
7527 if not Is_Known_Non_Asynchronous then
7528 Asynchronous_Statements := New_List (Make_Null_Statement (Loc));
7529 end if;
7531 -- Non-asynchronous case
7533 if not Is_Known_Asynchronous then
7534 -- Reraise an exception occurrence from the completed request.
7535 -- If the exception occurrence is empty, this is a no-op.
7537 Non_Asynchronous_Statements := New_List (
7538 Make_Procedure_Call_Statement (Loc,
7539 Name =>
7540 New_Occurrence_Of (RTE (RE_Request_Raise_Occurrence), Loc),
7541 Parameter_Associations => New_List (
7542 New_Occurrence_Of (Request, Loc))));
7544 if Is_Function then
7545 -- If this is a function call, read the value and return it
7547 Append_To (Non_Asynchronous_Statements,
7548 Make_Tag_Check (Loc,
7549 Make_Simple_Return_Statement (Loc,
7550 PolyORB_Support.Helpers.Build_From_Any_Call
7551 (Etype (Result_Definition (Spec)),
7552 Make_Selected_Component (Loc,
7553 Prefix => Result,
7554 Selector_Name => Name_Argument),
7555 Decls))));
7557 else
7559 -- Case of a procedure: deal with IN OUT and OUT formals
7561 Append_List_To (Non_Asynchronous_Statements, After_Statements);
7562 end if;
7563 end if;
7565 if Is_Known_Asynchronous then
7566 Append_List_To (Statements, Asynchronous_Statements);
7568 elsif Is_Known_Non_Asynchronous then
7569 Append_List_To (Statements, Non_Asynchronous_Statements);
7571 else
7572 pragma Assert (Present (Asynchronous));
7573 Append_To (Statements,
7574 Make_Implicit_If_Statement (Nod,
7575 Condition => Asynchronous,
7576 Then_Statements => Asynchronous_Statements,
7577 Else_Statements => Non_Asynchronous_Statements));
7578 end if;
7579 end Build_General_Calling_Stubs;
7581 -----------------------
7582 -- Build_Stub_Target --
7583 -----------------------
7585 function Build_Stub_Target
7586 (Loc : Source_Ptr;
7587 Decls : List_Id;
7588 RCI_Locator : Entity_Id;
7589 Controlling_Parameter : Entity_Id) return RPC_Target
7591 Target_Info : RPC_Target (PCS_Kind => Name_PolyORB_DSA);
7592 Target_Reference : constant Entity_Id := Make_Temporary (Loc, 'T');
7594 begin
7595 if Present (Controlling_Parameter) then
7596 Append_To (Decls,
7597 Make_Object_Declaration (Loc,
7598 Defining_Identifier => Target_Reference,
7600 Object_Definition =>
7601 New_Occurrence_Of (RTE (RE_Object_Ref), Loc),
7603 Expression =>
7604 Make_Function_Call (Loc,
7605 Name =>
7606 New_Occurrence_Of (RTE (RE_Make_Ref), Loc),
7607 Parameter_Associations => New_List (
7608 Make_Selected_Component (Loc,
7609 Prefix => Controlling_Parameter,
7610 Selector_Name => Name_Target)))));
7612 -- Note: Controlling_Parameter has the same components as
7613 -- System.Partition_Interface.RACW_Stub_Type.
7615 Target_Info.Object := New_Occurrence_Of (Target_Reference, Loc);
7617 else
7618 Target_Info.Object :=
7619 Make_Selected_Component (Loc,
7620 Prefix =>
7621 Make_Identifier (Loc, Chars (RCI_Locator)),
7622 Selector_Name =>
7623 Make_Identifier (Loc, Name_Get_RCI_Package_Ref));
7624 end if;
7626 return Target_Info;
7627 end Build_Stub_Target;
7629 -----------------------------
7630 -- Build_RPC_Receiver_Body --
7631 -----------------------------
7633 procedure Build_RPC_Receiver_Body
7634 (RPC_Receiver : Entity_Id;
7635 Request : out Entity_Id;
7636 Subp_Id : out Entity_Id;
7637 Subp_Index : out Entity_Id;
7638 Stmts : out List_Id;
7639 Decl : out Node_Id)
7641 Loc : constant Source_Ptr := Sloc (RPC_Receiver);
7643 RPC_Receiver_Spec : Node_Id;
7644 RPC_Receiver_Decls : List_Id;
7646 begin
7647 Request := Make_Defining_Identifier (Loc, Name_R);
7649 RPC_Receiver_Spec :=
7650 Build_RPC_Receiver_Specification
7651 (RPC_Receiver => RPC_Receiver,
7652 Request_Parameter => Request);
7654 Subp_Id := Make_Defining_Identifier (Loc, Name_P);
7655 Subp_Index := Make_Defining_Identifier (Loc, Name_I);
7657 RPC_Receiver_Decls := New_List (
7658 Make_Object_Renaming_Declaration (Loc,
7659 Defining_Identifier => Subp_Id,
7660 Subtype_Mark => New_Occurrence_Of (Standard_String, Loc),
7661 Name =>
7662 Make_Explicit_Dereference (Loc,
7663 Prefix =>
7664 Make_Selected_Component (Loc,
7665 Prefix => Request,
7666 Selector_Name => Name_Operation))),
7668 Make_Object_Declaration (Loc,
7669 Defining_Identifier => Subp_Index,
7670 Object_Definition =>
7671 New_Occurrence_Of (RTE (RE_Subprogram_Id), Loc),
7672 Expression =>
7673 Make_Attribute_Reference (Loc,
7674 Prefix =>
7675 New_Occurrence_Of (RTE (RE_Subprogram_Id), Loc),
7676 Attribute_Name => Name_Last)));
7678 Stmts := New_List;
7680 Decl :=
7681 Make_Subprogram_Body (Loc,
7682 Specification => RPC_Receiver_Spec,
7683 Declarations => RPC_Receiver_Decls,
7684 Handled_Statement_Sequence =>
7685 Make_Handled_Sequence_Of_Statements (Loc,
7686 Statements => Stmts));
7687 end Build_RPC_Receiver_Body;
7689 --------------------------------------
7690 -- Build_Subprogram_Receiving_Stubs --
7691 --------------------------------------
7693 function Build_Subprogram_Receiving_Stubs
7694 (Vis_Decl : Node_Id;
7695 Asynchronous : Boolean;
7696 Dynamically_Asynchronous : Boolean := False;
7697 Stub_Type : Entity_Id := Empty;
7698 RACW_Type : Entity_Id := Empty;
7699 Parent_Primitive : Entity_Id := Empty) return Node_Id
7701 Loc : constant Source_Ptr := Sloc (Vis_Decl);
7703 Request_Parameter : constant Entity_Id := Make_Temporary (Loc, 'R');
7704 -- Formal parameter for receiving stubs: a descriptor for an incoming
7705 -- request.
7707 Outer_Decls : constant List_Id := New_List;
7708 -- At the outermost level, an NVList and Any's are declared for all
7709 -- parameters. The Dynamic_Async flag also needs to be declared there
7710 -- to be visible from the exception handling code.
7712 Outer_Statements : constant List_Id := New_List;
7713 -- Statements that occur prior to the declaration of the actual
7714 -- parameter variables.
7716 Outer_Extra_Formal_Statements : constant List_Id := New_List;
7717 -- Statements concerning extra formal parameters, prior to the
7718 -- declaration of the actual parameter variables.
7720 Decls : constant List_Id := New_List;
7721 -- All the parameters will get declared before calling the real
7722 -- subprograms. Also the out parameters will be declared. At this
7723 -- level, parameters may be unconstrained.
7725 Statements : constant List_Id := New_List;
7727 After_Statements : constant List_Id := New_List;
7728 -- Statements to be executed after the subprogram call
7730 Inner_Decls : List_Id := No_List;
7731 -- In case of a function, the inner declarations are needed since
7732 -- the result may be unconstrained.
7734 Excep_Handlers : List_Id := No_List;
7736 Parameter_List : constant List_Id := New_List;
7737 -- List of parameters to be passed to the subprogram
7739 First_Controlling_Formal_Seen : Boolean := False;
7741 Current_Parameter : Node_Id;
7743 Ordered_Parameters_List : constant List_Id :=
7744 Build_Ordered_Parameters_List
7745 (Specification (Vis_Decl));
7747 Arguments : constant Entity_Id := Make_Temporary (Loc, 'A');
7748 -- Name of the named values list used to retrieve parameters
7750 Subp_Spec : Node_Id;
7751 -- Subprogram specification
7753 Called_Subprogram : Node_Id;
7754 -- The subprogram to call
7756 begin
7757 if Present (RACW_Type) then
7758 Called_Subprogram :=
7759 New_Occurrence_Of (Parent_Primitive, Loc);
7760 else
7761 Called_Subprogram :=
7762 New_Occurrence_Of
7763 (Defining_Unit_Name (Specification (Vis_Decl)), Loc);
7764 end if;
7766 Declare_Create_NVList (Loc, Arguments, Outer_Decls, Outer_Statements);
7768 -- Loop through every parameter and get its value from the stream. If
7769 -- the parameter is unconstrained, then the parameter is read using
7770 -- 'Input at the point of declaration.
7772 Current_Parameter := First (Ordered_Parameters_List);
7773 while Present (Current_Parameter) loop
7774 declare
7775 Etyp : Entity_Id;
7776 Constrained : Boolean;
7777 Any : Entity_Id := Empty;
7778 Object : constant Entity_Id := Make_Temporary (Loc, 'P');
7779 Expr : Node_Id := Empty;
7781 Is_Controlling_Formal : constant Boolean :=
7782 Is_RACW_Controlling_Formal
7783 (Current_Parameter, Stub_Type);
7785 Is_First_Controlling_Formal : Boolean := False;
7787 Need_Extra_Constrained : Boolean;
7788 -- True when an extra constrained actual is required
7790 begin
7791 if Is_Controlling_Formal then
7793 -- Controlling formals in distributed object primitive
7794 -- operations are handled specially:
7796 -- - the first controlling formal is used as the
7797 -- target of the call;
7799 -- - the remaining controlling formals are transmitted
7800 -- as RACWs.
7802 Etyp := RACW_Type;
7803 Is_First_Controlling_Formal :=
7804 not First_Controlling_Formal_Seen;
7805 First_Controlling_Formal_Seen := True;
7807 else
7808 Etyp := Etype (Parameter_Type (Current_Parameter));
7809 end if;
7811 Constrained :=
7812 Is_Constrained (Etyp) or else Is_Elementary_Type (Etyp);
7814 if not Is_First_Controlling_Formal then
7815 Any := Make_Temporary (Loc, 'A');
7817 Append_To (Outer_Decls,
7818 Make_Object_Declaration (Loc,
7819 Defining_Identifier => Any,
7820 Object_Definition =>
7821 New_Occurrence_Of (RTE (RE_Any), Loc),
7822 Expression =>
7823 Make_Function_Call (Loc,
7824 Name => New_Occurrence_Of (RTE (RE_Create_Any), Loc),
7825 Parameter_Associations => New_List (
7826 PolyORB_Support.Helpers.Build_TypeCode_Call
7827 (Loc, Etyp, Outer_Decls)))));
7829 Append_To (Outer_Statements,
7830 Add_Parameter_To_NVList (Loc,
7831 Parameter => Current_Parameter,
7832 NVList => Arguments,
7833 Constrained => Constrained,
7834 Any => Any));
7835 end if;
7837 if Is_First_Controlling_Formal then
7838 declare
7839 Addr : constant Entity_Id := Make_Temporary (Loc, 'A');
7841 Is_Local : constant Entity_Id :=
7842 Make_Temporary (Loc, 'L');
7844 begin
7845 -- Special case: obtain the first controlling formal
7846 -- from the target of the remote call, instead of the
7847 -- argument list.
7849 Append_To (Outer_Decls,
7850 Make_Object_Declaration (Loc,
7851 Defining_Identifier => Addr,
7852 Object_Definition =>
7853 New_Occurrence_Of (RTE (RE_Address), Loc)));
7855 Append_To (Outer_Decls,
7856 Make_Object_Declaration (Loc,
7857 Defining_Identifier => Is_Local,
7858 Object_Definition =>
7859 New_Occurrence_Of (Standard_Boolean, Loc)));
7861 Append_To (Outer_Statements,
7862 Make_Procedure_Call_Statement (Loc,
7863 Name =>
7864 New_Occurrence_Of (RTE (RE_Get_Local_Address), Loc),
7865 Parameter_Associations => New_List (
7866 Make_Selected_Component (Loc,
7867 Prefix =>
7868 New_Occurrence_Of (
7869 Request_Parameter, Loc),
7870 Selector_Name =>
7871 Make_Identifier (Loc, Name_Target)),
7872 New_Occurrence_Of (Is_Local, Loc),
7873 New_Occurrence_Of (Addr, Loc))));
7875 Expr := Unchecked_Convert_To (RACW_Type,
7876 New_Occurrence_Of (Addr, Loc));
7877 end;
7879 elsif In_Present (Current_Parameter)
7880 or else not Out_Present (Current_Parameter)
7881 or else not Constrained
7882 then
7883 -- If an input parameter is constrained, then its reading is
7884 -- deferred until the beginning of the subprogram body. If
7885 -- it is unconstrained, then an expression is built for
7886 -- the object declaration and the variable is set using
7887 -- 'Input instead of 'Read.
7889 if Constrained and then Is_Limited_Type (Etyp) then
7890 Helpers.Assign_Opaque_From_Any (Loc,
7891 Stms => Statements,
7892 Typ => Etyp,
7893 N => New_Occurrence_Of (Any, Loc),
7894 Target => Object);
7896 else
7897 Expr := Helpers.Build_From_Any_Call
7898 (Etyp, New_Occurrence_Of (Any, Loc), Decls);
7900 if Constrained then
7901 Append_To (Statements,
7902 Make_Assignment_Statement (Loc,
7903 Name => New_Occurrence_Of (Object, Loc),
7904 Expression => Expr));
7905 Expr := Empty;
7907 else
7908 -- Expr will be used to initialize (and constrain) the
7909 -- parameter when it is declared.
7910 null;
7911 end if;
7913 null;
7914 end if;
7915 end if;
7917 Need_Extra_Constrained :=
7918 Nkind (Parameter_Type (Current_Parameter)) /=
7919 N_Access_Definition
7920 and then
7921 Ekind (Defining_Identifier (Current_Parameter)) /= E_Void
7922 and then
7923 Present (Extra_Constrained
7924 (Defining_Identifier (Current_Parameter)));
7926 -- We may not associate an extra constrained actual to a
7927 -- constant object, so if one is needed, declare the actual
7928 -- as a variable even if it won't be modified.
7930 Build_Actual_Object_Declaration
7931 (Object => Object,
7932 Etyp => Etyp,
7933 Variable => Need_Extra_Constrained
7934 or else Out_Present (Current_Parameter),
7935 Expr => Expr,
7936 Decls => Decls);
7937 Set_Etype (Object, Etyp);
7939 -- An out parameter may be written back using a 'Write
7940 -- attribute instead of a 'Output because it has been
7941 -- constrained by the parameter given to the caller. Note that
7942 -- OUT controlling arguments in the case of a RACW are not put
7943 -- back in the stream because the pointer on them has not
7944 -- changed.
7946 if Out_Present (Current_Parameter)
7947 and then not Is_Controlling_Formal
7948 then
7949 Append_To (After_Statements,
7950 Make_Procedure_Call_Statement (Loc,
7951 Name => New_Occurrence_Of (RTE (RE_Move_Any_Value), Loc),
7952 Parameter_Associations => New_List (
7953 New_Occurrence_Of (Any, Loc),
7954 PolyORB_Support.Helpers.Build_To_Any_Call
7955 (Loc,
7956 New_Occurrence_Of (Object, Loc),
7957 Decls,
7958 Constrained => True))));
7959 end if;
7961 -- For RACW controlling formals, the Etyp of Object is always
7962 -- an RACW, even if the parameter is not of an anonymous access
7963 -- type. In such case, we need to dereference it at call time.
7965 if Is_Controlling_Formal then
7966 if Nkind (Parameter_Type (Current_Parameter)) /=
7967 N_Access_Definition
7968 then
7969 Append_To (Parameter_List,
7970 Make_Parameter_Association (Loc,
7971 Selector_Name =>
7972 New_Occurrence_Of
7973 (Defining_Identifier (Current_Parameter), Loc),
7974 Explicit_Actual_Parameter =>
7975 Make_Explicit_Dereference (Loc,
7976 Prefix => New_Occurrence_Of (Object, Loc))));
7978 else
7979 Append_To (Parameter_List,
7980 Make_Parameter_Association (Loc,
7981 Selector_Name =>
7982 New_Occurrence_Of
7983 (Defining_Identifier (Current_Parameter), Loc),
7985 Explicit_Actual_Parameter =>
7986 New_Occurrence_Of (Object, Loc)));
7987 end if;
7989 else
7990 Append_To (Parameter_List,
7991 Make_Parameter_Association (Loc,
7992 Selector_Name =>
7993 New_Occurrence_Of (
7994 Defining_Identifier (Current_Parameter), Loc),
7995 Explicit_Actual_Parameter =>
7996 New_Occurrence_Of (Object, Loc)));
7997 end if;
7999 -- If the current parameter needs an extra formal, then read it
8000 -- from the stream and set the corresponding semantic field in
8001 -- the variable. If the kind of the parameter identifier is
8002 -- E_Void, then this is a compiler generated parameter that
8003 -- doesn't need an extra constrained status.
8005 -- The case of Extra_Accessibility should also be handled ???
8007 if Need_Extra_Constrained then
8008 declare
8009 Extra_Parameter : constant Entity_Id :=
8010 Extra_Constrained
8011 (Defining_Identifier
8012 (Current_Parameter));
8014 Extra_Any : constant Entity_Id :=
8015 Make_Temporary (Loc, 'A');
8017 Formal_Entity : constant Entity_Id :=
8018 Make_Defining_Identifier (Loc,
8019 Chars => Chars (Extra_Parameter));
8021 Formal_Type : constant Entity_Id :=
8022 Etype (Extra_Parameter);
8024 begin
8025 Append_To (Outer_Decls,
8026 Make_Object_Declaration (Loc,
8027 Defining_Identifier => Extra_Any,
8028 Object_Definition =>
8029 New_Occurrence_Of (RTE (RE_Any), Loc),
8030 Expression =>
8031 Make_Function_Call (Loc,
8032 Name =>
8033 New_Occurrence_Of (RTE (RE_Create_Any), Loc),
8034 Parameter_Associations => New_List (
8035 PolyORB_Support.Helpers.Build_TypeCode_Call
8036 (Loc, Formal_Type, Outer_Decls)))));
8038 Append_To (Outer_Extra_Formal_Statements,
8039 Add_Parameter_To_NVList (Loc,
8040 Parameter => Extra_Parameter,
8041 NVList => Arguments,
8042 Constrained => True,
8043 Any => Extra_Any));
8045 Append_To (Decls,
8046 Make_Object_Declaration (Loc,
8047 Defining_Identifier => Formal_Entity,
8048 Object_Definition =>
8049 New_Occurrence_Of (Formal_Type, Loc)));
8051 Append_To (Statements,
8052 Make_Assignment_Statement (Loc,
8053 Name => New_Occurrence_Of (Formal_Entity, Loc),
8054 Expression =>
8055 PolyORB_Support.Helpers.Build_From_Any_Call
8056 (Formal_Type,
8057 New_Occurrence_Of (Extra_Any, Loc),
8058 Decls)));
8059 Set_Extra_Constrained (Object, Formal_Entity);
8060 end;
8061 end if;
8062 end;
8064 Next (Current_Parameter);
8065 end loop;
8067 -- Extra Formals should go after all the other parameters
8069 Append_List_To (Outer_Statements, Outer_Extra_Formal_Statements);
8071 Append_To (Outer_Statements,
8072 Make_Procedure_Call_Statement (Loc,
8073 Name => New_Occurrence_Of (RTE (RE_Request_Arguments), Loc),
8074 Parameter_Associations => New_List (
8075 New_Occurrence_Of (Request_Parameter, Loc),
8076 New_Occurrence_Of (Arguments, Loc))));
8078 if Nkind (Specification (Vis_Decl)) = N_Function_Specification then
8080 -- The remote subprogram is a function: Build an inner block to be
8081 -- able to hold a potentially unconstrained result in a variable.
8083 declare
8084 Etyp : constant Entity_Id :=
8085 Etype (Result_Definition (Specification (Vis_Decl)));
8086 Result : constant Node_Id := Make_Temporary (Loc, 'R');
8088 begin
8089 Inner_Decls := New_List (
8090 Make_Object_Declaration (Loc,
8091 Defining_Identifier => Result,
8092 Constant_Present => True,
8093 Object_Definition => New_Occurrence_Of (Etyp, Loc),
8094 Expression =>
8095 Make_Function_Call (Loc,
8096 Name => Called_Subprogram,
8097 Parameter_Associations => Parameter_List)));
8099 if Is_Class_Wide_Type (Etyp) then
8101 -- For a remote call to a function with a class-wide type,
8102 -- check that the returned value satisfies the requirements
8103 -- of (RM E.4(18)).
8105 Append_To (Inner_Decls,
8106 Make_Transportable_Check (Loc,
8107 New_Occurrence_Of (Result, Loc)));
8109 end if;
8111 Set_Etype (Result, Etyp);
8112 Append_To (After_Statements,
8113 Make_Procedure_Call_Statement (Loc,
8114 Name => New_Occurrence_Of (RTE (RE_Set_Result), Loc),
8115 Parameter_Associations => New_List (
8116 New_Occurrence_Of (Request_Parameter, Loc),
8117 PolyORB_Support.Helpers.Build_To_Any_Call
8118 (Loc, New_Occurrence_Of (Result, Loc), Decls))));
8120 -- A DSA function does not have out or inout arguments
8121 end;
8123 Append_To (Statements,
8124 Make_Block_Statement (Loc,
8125 Declarations => Inner_Decls,
8126 Handled_Statement_Sequence =>
8127 Make_Handled_Sequence_Of_Statements (Loc,
8128 Statements => After_Statements)));
8130 else
8131 -- The remote subprogram is a procedure. We do not need any inner
8132 -- block in this case. No specific processing is required here for
8133 -- the dynamically asynchronous case: the indication of whether
8134 -- call is asynchronous or not is managed by the Sync_Scope
8135 -- attibute of the request, and is handled entirely in the
8136 -- protocol layer.
8138 Append_To (After_Statements,
8139 Make_Procedure_Call_Statement (Loc,
8140 Name => New_Occurrence_Of (RTE (RE_Request_Set_Out), Loc),
8141 Parameter_Associations => New_List (
8142 New_Occurrence_Of (Request_Parameter, Loc))));
8144 Append_To (Statements,
8145 Make_Procedure_Call_Statement (Loc,
8146 Name => Called_Subprogram,
8147 Parameter_Associations => Parameter_List));
8149 Append_List_To (Statements, After_Statements);
8150 end if;
8152 Subp_Spec :=
8153 Make_Procedure_Specification (Loc,
8154 Defining_Unit_Name => Make_Temporary (Loc, 'F'),
8156 Parameter_Specifications => New_List (
8157 Make_Parameter_Specification (Loc,
8158 Defining_Identifier => Request_Parameter,
8159 Parameter_Type =>
8160 New_Occurrence_Of (RTE (RE_Request_Access), Loc))));
8162 -- An exception raised during the execution of an incoming remote
8163 -- subprogram call and that needs to be sent back to the caller is
8164 -- propagated by the receiving stubs, and will be handled by the
8165 -- caller (the distribution runtime).
8167 if Asynchronous and then not Dynamically_Asynchronous then
8169 -- For an asynchronous procedure, add a null exception handler
8171 Excep_Handlers := New_List (
8172 Make_Implicit_Exception_Handler (Loc,
8173 Exception_Choices => New_List (Make_Others_Choice (Loc)),
8174 Statements => New_List (Make_Null_Statement (Loc))));
8176 else
8177 -- In the other cases, if an exception is raised, then the
8178 -- exception occurrence is propagated.
8180 null;
8181 end if;
8183 Append_To (Outer_Statements,
8184 Make_Block_Statement (Loc,
8185 Declarations => Decls,
8186 Handled_Statement_Sequence =>
8187 Make_Handled_Sequence_Of_Statements (Loc,
8188 Statements => Statements)));
8190 return
8191 Make_Subprogram_Body (Loc,
8192 Specification => Subp_Spec,
8193 Declarations => Outer_Decls,
8194 Handled_Statement_Sequence =>
8195 Make_Handled_Sequence_Of_Statements (Loc,
8196 Statements => Outer_Statements,
8197 Exception_Handlers => Excep_Handlers));
8198 end Build_Subprogram_Receiving_Stubs;
8200 -------------
8201 -- Helpers --
8202 -------------
8204 package body Helpers is
8206 -----------------------
8207 -- Local Subprograms --
8208 -----------------------
8210 function Find_Numeric_Representation
8211 (Typ : Entity_Id) return Entity_Id;
8212 -- Given a numeric type Typ, return the smallest integer or modular
8213 -- type from Interfaces, or the smallest floating point type from
8214 -- Standard whose range encompasses that of Typ.
8216 function Make_Helper_Function_Name
8217 (Loc : Source_Ptr;
8218 Typ : Entity_Id;
8219 Nam : Name_Id) return Entity_Id;
8220 -- Return the name to be assigned for helper subprogram Nam of Typ
8222 ------------------------------------------------------------
8223 -- Common subprograms for building various tree fragments --
8224 ------------------------------------------------------------
8226 function Build_Get_Aggregate_Element
8227 (Loc : Source_Ptr;
8228 Any : Entity_Id;
8229 TC : Node_Id;
8230 Idx : Node_Id) return Node_Id;
8231 -- Build a call to Get_Aggregate_Element on Any for typecode TC,
8232 -- returning the Idx'th element.
8234 generic
8235 Subprogram : Entity_Id;
8236 -- Reference location for constructed nodes
8238 Arry : Entity_Id;
8239 -- For 'Range and Etype
8241 Indexes : List_Id;
8242 -- For the construction of the innermost element expression
8244 with procedure Add_Process_Element
8245 (Stmts : List_Id;
8246 Any : Entity_Id;
8247 Counter : Entity_Id;
8248 Datum : Node_Id);
8250 procedure Append_Array_Traversal
8251 (Stmts : List_Id;
8252 Any : Entity_Id;
8253 Counter : Entity_Id := Empty;
8254 Depth : Pos := 1);
8255 -- Build nested loop statements that iterate over the elements of an
8256 -- array Arry. The statement(s) built by Add_Process_Element are
8257 -- executed for each element; Indexes is the list of indexes to be
8258 -- used in the construction of the indexed component that denotes the
8259 -- current element. Subprogram is the entity for the subprogram for
8260 -- which this iterator is generated. The generated statements are
8261 -- appended to Stmts.
8263 generic
8264 Rec : Entity_Id;
8265 -- The record entity being dealt with
8267 with procedure Add_Process_Element
8268 (Stmts : List_Id;
8269 Container : Node_Or_Entity_Id;
8270 Counter : in out Int;
8271 Rec : Entity_Id;
8272 Field : Node_Id);
8273 -- Rec is the instance of the record type, or Empty.
8274 -- Field is either the N_Defining_Identifier for a component,
8275 -- or an N_Variant_Part.
8277 procedure Append_Record_Traversal
8278 (Stmts : List_Id;
8279 Clist : Node_Id;
8280 Container : Node_Or_Entity_Id;
8281 Counter : in out Int);
8282 -- Process component list Clist. Individual fields are passed
8283 -- to Field_Processing. Each variant part is also processed.
8284 -- Container is the outer Any (for From_Any/To_Any),
8285 -- the outer typecode (for TC) to which the operation applies.
8287 -----------------------------
8288 -- Append_Record_Traversal --
8289 -----------------------------
8291 procedure Append_Record_Traversal
8292 (Stmts : List_Id;
8293 Clist : Node_Id;
8294 Container : Node_Or_Entity_Id;
8295 Counter : in out Int)
8297 CI : List_Id;
8298 VP : Node_Id;
8299 -- Clist's Component_Items and Variant_Part
8301 Item : Node_Id;
8302 Def : Entity_Id;
8304 begin
8305 if No (Clist) then
8306 return;
8307 end if;
8309 CI := Component_Items (Clist);
8310 VP := Variant_Part (Clist);
8312 Item := First (CI);
8313 while Present (Item) loop
8314 Def := Defining_Identifier (Item);
8316 if not Is_Internal_Name (Chars (Def)) then
8317 Add_Process_Element
8318 (Stmts, Container, Counter, Rec, Def);
8319 end if;
8321 Next (Item);
8322 end loop;
8324 if Present (VP) then
8325 Add_Process_Element (Stmts, Container, Counter, Rec, VP);
8326 end if;
8327 end Append_Record_Traversal;
8329 -----------------------------
8330 -- Assign_Opaque_From_Any --
8331 -----------------------------
8333 procedure Assign_Opaque_From_Any
8334 (Loc : Source_Ptr;
8335 Stms : List_Id;
8336 Typ : Entity_Id;
8337 N : Node_Id;
8338 Target : Entity_Id;
8339 Constrained : Boolean := False)
8341 Strm : constant Entity_Id := Make_Temporary (Loc, 'S');
8342 Expr : Node_Id;
8344 Read_Call_List : List_Id;
8345 -- List on which to place the 'Read attribute reference
8347 begin
8348 -- Strm : Buffer_Stream_Type;
8350 Append_To (Stms,
8351 Make_Object_Declaration (Loc,
8352 Defining_Identifier => Strm,
8353 Aliased_Present => True,
8354 Object_Definition =>
8355 New_Occurrence_Of (RTE (RE_Buffer_Stream_Type), Loc)));
8357 -- Any_To_BS (Strm, A);
8359 Append_To (Stms,
8360 Make_Procedure_Call_Statement (Loc,
8361 Name => New_Occurrence_Of (RTE (RE_Any_To_BS), Loc),
8362 Parameter_Associations => New_List (
8364 New_Occurrence_Of (Strm, Loc))));
8366 if Transmit_As_Unconstrained (Typ) and then not Constrained then
8367 Expr :=
8368 Make_Attribute_Reference (Loc,
8369 Prefix => New_Occurrence_Of (Typ, Loc),
8370 Attribute_Name => Name_Input,
8371 Expressions => New_List (
8372 Make_Attribute_Reference (Loc,
8373 Prefix => New_Occurrence_Of (Strm, Loc),
8374 Attribute_Name => Name_Access)));
8376 -- Target := Typ'Input (Strm'Access)
8378 if Present (Target) then
8379 Append_To (Stms,
8380 Make_Assignment_Statement (Loc,
8381 Name => New_Occurrence_Of (Target, Loc),
8382 Expression => Expr));
8384 -- return Typ'Input (Strm'Access);
8386 else
8387 Append_To (Stms,
8388 Make_Simple_Return_Statement (Loc,
8389 Expression => Expr));
8390 end if;
8392 else
8393 if Present (Target) then
8394 Read_Call_List := Stms;
8395 Expr := New_Occurrence_Of (Target, Loc);
8397 else
8398 declare
8399 Temp : constant Entity_Id := Make_Temporary (Loc, 'R');
8401 begin
8402 Read_Call_List := New_List;
8403 Expr := New_Occurrence_Of (Temp, Loc);
8405 Append_To (Stms, Make_Block_Statement (Loc,
8406 Declarations => New_List (
8407 Make_Object_Declaration (Loc,
8408 Defining_Identifier =>
8409 Temp,
8410 Object_Definition =>
8411 New_Occurrence_Of (Typ, Loc))),
8413 Handled_Statement_Sequence =>
8414 Make_Handled_Sequence_Of_Statements (Loc,
8415 Statements => Read_Call_List)));
8416 end;
8417 end if;
8419 -- Typ'Read (Strm'Access, [Target|Temp])
8421 Append_To (Read_Call_List,
8422 Make_Attribute_Reference (Loc,
8423 Prefix => New_Occurrence_Of (Typ, Loc),
8424 Attribute_Name => Name_Read,
8425 Expressions => New_List (
8426 Make_Attribute_Reference (Loc,
8427 Prefix => New_Occurrence_Of (Strm, Loc),
8428 Attribute_Name => Name_Access),
8429 Expr)));
8431 if No (Target) then
8433 -- return Temp
8435 Append_To (Read_Call_List,
8436 Make_Simple_Return_Statement (Loc,
8437 Expression => New_Copy (Expr)));
8438 end if;
8439 end if;
8440 end Assign_Opaque_From_Any;
8442 -------------------------
8443 -- Build_From_Any_Call --
8444 -------------------------
8446 function Build_From_Any_Call
8447 (Typ : Entity_Id;
8448 N : Node_Id;
8449 Decls : List_Id) return Node_Id
8451 Loc : constant Source_Ptr := Sloc (N);
8453 U_Type : Entity_Id := Underlying_Type (Typ);
8455 Fnam : Entity_Id := Empty;
8456 Lib_RE : RE_Id := RE_Null;
8457 Result : Node_Id;
8459 begin
8460 -- First simple case where the From_Any function is present
8461 -- in the type's TSS.
8463 Fnam := Find_Inherited_TSS (U_Type, TSS_From_Any);
8465 -- For the subtype representing a generic actual type, go to the
8466 -- actual type.
8468 if Is_Generic_Actual_Type (U_Type) then
8469 U_Type := Underlying_Type (Base_Type (U_Type));
8470 end if;
8472 -- For a standard subtype, go to the base type
8474 if Sloc (U_Type) <= Standard_Location then
8475 U_Type := Base_Type (U_Type);
8477 -- For a user subtype, go to first subtype
8479 elsif Comes_From_Source (U_Type)
8480 and then Nkind (Declaration_Node (U_Type))
8481 = N_Subtype_Declaration
8482 then
8483 U_Type := First_Subtype (U_Type);
8484 end if;
8486 -- Check first for Boolean and Character. These are enumeration
8487 -- types, but we treat them specially, since they may require
8488 -- special handling in the transfer protocol. However, this
8489 -- special handling only applies if they have standard
8490 -- representation, otherwise they are treated like any other
8491 -- enumeration type.
8493 if Present (Fnam) then
8494 null;
8496 elsif U_Type = Standard_Boolean then
8497 Lib_RE := RE_FA_B;
8499 elsif U_Type = Standard_Character then
8500 Lib_RE := RE_FA_C;
8502 elsif U_Type = Standard_Wide_Character then
8503 Lib_RE := RE_FA_WC;
8505 elsif U_Type = Standard_Wide_Wide_Character then
8506 Lib_RE := RE_FA_WWC;
8508 -- Floating point types
8510 elsif U_Type = Standard_Short_Float then
8511 Lib_RE := RE_FA_SF;
8513 elsif U_Type = Standard_Float then
8514 Lib_RE := RE_FA_F;
8516 elsif U_Type = Standard_Long_Float then
8517 Lib_RE := RE_FA_LF;
8519 elsif U_Type = Standard_Long_Long_Float then
8520 Lib_RE := RE_FA_LLF;
8522 -- Integer types
8524 elsif U_Type = RTE (RE_Integer_8) then
8525 Lib_RE := RE_FA_I8;
8527 elsif U_Type = RTE (RE_Integer_16) then
8528 Lib_RE := RE_FA_I16;
8530 elsif U_Type = RTE (RE_Integer_32) then
8531 Lib_RE := RE_FA_I32;
8533 elsif U_Type = RTE (RE_Integer_64) then
8534 Lib_RE := RE_FA_I64;
8536 -- Unsigned integer types
8538 elsif U_Type = RTE (RE_Unsigned_8) then
8539 Lib_RE := RE_FA_U8;
8541 elsif U_Type = RTE (RE_Unsigned_16) then
8542 Lib_RE := RE_FA_U16;
8544 elsif U_Type = RTE (RE_Unsigned_32) then
8545 Lib_RE := RE_FA_U32;
8547 elsif U_Type = RTE (RE_Unsigned_64) then
8548 Lib_RE := RE_FA_U64;
8550 elsif Is_RTE (U_Type, RE_Unbounded_String) then
8551 Lib_RE := RE_FA_String;
8553 -- Special DSA types
8555 elsif Is_RTE (U_Type, RE_Any_Container_Ptr) then
8556 Lib_RE := RE_FA_A;
8558 -- Other (non-primitive) types
8560 else
8561 declare
8562 Decl : Entity_Id;
8564 begin
8565 Build_From_Any_Function (Loc, U_Type, Decl, Fnam);
8566 Append_To (Decls, Decl);
8567 end;
8568 end if;
8570 -- Call the function
8572 if Lib_RE /= RE_Null then
8573 pragma Assert (No (Fnam));
8574 Fnam := RTE (Lib_RE);
8575 end if;
8577 Result :=
8578 Make_Function_Call (Loc,
8579 Name => New_Occurrence_Of (Fnam, Loc),
8580 Parameter_Associations => New_List (N));
8582 -- We must set the type of Result, so the unchecked conversion
8583 -- from the underlying type to the base type is properly done.
8585 Set_Etype (Result, U_Type);
8587 return Unchecked_Convert_To (Typ, Result);
8588 end Build_From_Any_Call;
8590 -----------------------------
8591 -- Build_From_Any_Function --
8592 -----------------------------
8594 procedure Build_From_Any_Function
8595 (Loc : Source_Ptr;
8596 Typ : Entity_Id;
8597 Decl : out Node_Id;
8598 Fnam : out Entity_Id)
8600 Spec : Node_Id;
8601 Decls : constant List_Id := New_List;
8602 Stms : constant List_Id := New_List;
8604 Any_Parameter : constant Entity_Id := Make_Temporary (Loc, 'A');
8606 Use_Opaque_Representation : Boolean;
8608 begin
8609 -- For a derived type, we can't go past the base type (to the
8610 -- parent type) here, because that would cause the attribute's
8611 -- formal parameter to have the wrong type; hence the Base_Type
8612 -- check here.
8614 if Is_Itype (Typ) and then Typ /= Base_Type (Typ) then
8615 Build_From_Any_Function
8616 (Loc => Loc,
8617 Typ => Etype (Typ),
8618 Decl => Decl,
8619 Fnam => Fnam);
8620 return;
8621 end if;
8623 Fnam := Make_Helper_Function_Name (Loc, Typ, Name_From_Any);
8625 Spec :=
8626 Make_Function_Specification (Loc,
8627 Defining_Unit_Name => Fnam,
8628 Parameter_Specifications => New_List (
8629 Make_Parameter_Specification (Loc,
8630 Defining_Identifier => Any_Parameter,
8631 Parameter_Type => New_Occurrence_Of (RTE (RE_Any), Loc))),
8632 Result_Definition => New_Occurrence_Of (Typ, Loc));
8634 -- The RACW case is taken care of by Exp_Dist.Add_RACW_From_Any
8636 pragma Assert
8637 (not (Is_Remote_Access_To_Class_Wide_Type (Typ)));
8639 Use_Opaque_Representation := False;
8641 if Has_Stream_Attribute_Definition
8642 (Typ, TSS_Stream_Output, At_Any_Place => True)
8643 or else
8644 Has_Stream_Attribute_Definition
8645 (Typ, TSS_Stream_Write, At_Any_Place => True)
8646 then
8647 -- If user-defined stream attributes are specified for this
8648 -- type, use them and transmit data as an opaque sequence of
8649 -- stream elements.
8651 Use_Opaque_Representation := True;
8653 elsif Is_Derived_Type (Typ) and then not Is_Tagged_Type (Typ) then
8654 Append_To (Stms,
8655 Make_Simple_Return_Statement (Loc,
8656 Expression =>
8657 OK_Convert_To (Typ,
8658 Build_From_Any_Call
8659 (Root_Type (Typ),
8660 New_Occurrence_Of (Any_Parameter, Loc),
8661 Decls))));
8663 elsif Is_Record_Type (Typ)
8664 and then not Is_Derived_Type (Typ)
8665 and then not Is_Tagged_Type (Typ)
8666 then
8667 if Nkind (Declaration_Node (Typ)) = N_Subtype_Declaration then
8668 Append_To (Stms,
8669 Make_Simple_Return_Statement (Loc,
8670 Expression =>
8671 Build_From_Any_Call
8672 (Etype (Typ),
8673 New_Occurrence_Of (Any_Parameter, Loc),
8674 Decls)));
8676 else
8677 declare
8678 Disc : Entity_Id := Empty;
8679 Discriminant_Associations : List_Id;
8680 Rdef : constant Node_Id :=
8681 Type_Definition
8682 (Declaration_Node (Typ));
8683 Component_Counter : Int := 0;
8685 -- The returned object
8687 Res : constant Entity_Id := Make_Temporary (Loc, 'R');
8689 Res_Definition : Node_Id := New_Occurrence_Of (Typ, Loc);
8691 procedure FA_Rec_Add_Process_Element
8692 (Stmts : List_Id;
8693 Any : Entity_Id;
8694 Counter : in out Int;
8695 Rec : Entity_Id;
8696 Field : Node_Id);
8698 procedure FA_Append_Record_Traversal is
8699 new Append_Record_Traversal
8700 (Rec => Res,
8701 Add_Process_Element => FA_Rec_Add_Process_Element);
8703 --------------------------------
8704 -- FA_Rec_Add_Process_Element --
8705 --------------------------------
8707 procedure FA_Rec_Add_Process_Element
8708 (Stmts : List_Id;
8709 Any : Entity_Id;
8710 Counter : in out Int;
8711 Rec : Entity_Id;
8712 Field : Node_Id)
8714 Ctyp : Entity_Id;
8715 begin
8716 if Nkind (Field) = N_Defining_Identifier then
8717 -- A regular component
8719 Ctyp := Etype (Field);
8721 Append_To (Stmts,
8722 Make_Assignment_Statement (Loc,
8723 Name => Make_Selected_Component (Loc,
8724 Prefix =>
8725 New_Occurrence_Of (Rec, Loc),
8726 Selector_Name =>
8727 New_Occurrence_Of (Field, Loc)),
8729 Expression =>
8730 Build_From_Any_Call (Ctyp,
8731 Build_Get_Aggregate_Element (Loc,
8732 Any => Any,
8733 TC =>
8734 Build_TypeCode_Call (Loc, Ctyp, Decls),
8735 Idx =>
8736 Make_Integer_Literal (Loc, Counter)),
8737 Decls)));
8739 else
8740 -- A variant part
8742 declare
8743 Variant : Node_Id;
8744 Struct_Counter : Int := 0;
8746 Block_Decls : constant List_Id := New_List;
8747 Block_Stmts : constant List_Id := New_List;
8748 VP_Stmts : List_Id;
8750 Alt_List : constant List_Id := New_List;
8751 Choice_List : List_Id;
8753 Struct_Any : constant Entity_Id :=
8754 Make_Temporary (Loc, 'S');
8756 begin
8757 Append_To (Decls,
8758 Make_Object_Declaration (Loc,
8759 Defining_Identifier => Struct_Any,
8760 Constant_Present => True,
8761 Object_Definition =>
8762 New_Occurrence_Of (RTE (RE_Any), Loc),
8763 Expression =>
8764 Make_Function_Call (Loc,
8765 Name =>
8766 New_Occurrence_Of
8767 (RTE (RE_Extract_Union_Value), Loc),
8769 Parameter_Associations => New_List (
8770 Build_Get_Aggregate_Element (Loc,
8771 Any => Any,
8772 TC =>
8773 Make_Function_Call (Loc,
8774 Name => New_Occurrence_Of (
8775 RTE (RE_Any_Member_Type), Loc),
8776 Parameter_Associations =>
8777 New_List (
8778 New_Occurrence_Of (Any, Loc),
8779 Make_Integer_Literal (Loc,
8780 Intval => Counter))),
8781 Idx =>
8782 Make_Integer_Literal (Loc,
8783 Intval => Counter))))));
8785 Append_To (Stmts,
8786 Make_Block_Statement (Loc,
8787 Declarations => Block_Decls,
8788 Handled_Statement_Sequence =>
8789 Make_Handled_Sequence_Of_Statements (Loc,
8790 Statements => Block_Stmts)));
8792 Append_To (Block_Stmts,
8793 Make_Case_Statement (Loc,
8794 Expression =>
8795 Make_Selected_Component (Loc,
8796 Prefix => Rec,
8797 Selector_Name => Chars (Name (Field))),
8798 Alternatives => Alt_List));
8800 Variant := First_Non_Pragma (Variants (Field));
8801 while Present (Variant) loop
8802 Choice_List :=
8803 New_Copy_List_Tree
8804 (Discrete_Choices (Variant));
8806 VP_Stmts := New_List;
8808 -- Struct_Counter should be reset before
8809 -- handling a variant part. Indeed only one
8810 -- of the case statement alternatives will be
8811 -- executed at run time, so the counter must
8812 -- start at 0 for every case statement.
8814 Struct_Counter := 0;
8816 FA_Append_Record_Traversal (
8817 Stmts => VP_Stmts,
8818 Clist => Component_List (Variant),
8819 Container => Struct_Any,
8820 Counter => Struct_Counter);
8822 Append_To (Alt_List,
8823 Make_Case_Statement_Alternative (Loc,
8824 Discrete_Choices => Choice_List,
8825 Statements => VP_Stmts));
8826 Next_Non_Pragma (Variant);
8827 end loop;
8828 end;
8829 end if;
8831 Counter := Counter + 1;
8832 end FA_Rec_Add_Process_Element;
8834 begin
8835 -- First all discriminants
8837 if Has_Discriminants (Typ) then
8838 Discriminant_Associations := New_List;
8840 Disc := First_Discriminant (Typ);
8841 while Present (Disc) loop
8842 declare
8843 Disc_Var_Name : constant Entity_Id :=
8844 Make_Defining_Identifier (Loc,
8845 Chars => Chars (Disc));
8846 Disc_Type : constant Entity_Id :=
8847 Etype (Disc);
8849 begin
8850 Append_To (Decls,
8851 Make_Object_Declaration (Loc,
8852 Defining_Identifier => Disc_Var_Name,
8853 Constant_Present => True,
8854 Object_Definition =>
8855 New_Occurrence_Of (Disc_Type, Loc),
8857 Expression =>
8858 Build_From_Any_Call (Disc_Type,
8859 Build_Get_Aggregate_Element (Loc,
8860 Any => Any_Parameter,
8861 TC => Build_TypeCode_Call
8862 (Loc, Disc_Type, Decls),
8863 Idx => Make_Integer_Literal (Loc,
8864 Intval => Component_Counter)),
8865 Decls)));
8867 Component_Counter := Component_Counter + 1;
8869 Append_To (Discriminant_Associations,
8870 Make_Discriminant_Association (Loc,
8871 Selector_Names => New_List (
8872 New_Occurrence_Of (Disc, Loc)),
8873 Expression =>
8874 New_Occurrence_Of (Disc_Var_Name, Loc)));
8875 end;
8876 Next_Discriminant (Disc);
8877 end loop;
8879 Res_Definition :=
8880 Make_Subtype_Indication (Loc,
8881 Subtype_Mark => Res_Definition,
8882 Constraint =>
8883 Make_Index_Or_Discriminant_Constraint (Loc,
8884 Discriminant_Associations));
8885 end if;
8887 -- Now we have all the discriminants in variables, we can
8888 -- declared a constrained object. Note that we are not
8889 -- initializing (non-discriminant) components directly in
8890 -- the object declarations, because which fields to
8891 -- initialize depends (at run time) on the discriminant
8892 -- values.
8894 Append_To (Decls,
8895 Make_Object_Declaration (Loc,
8896 Defining_Identifier => Res,
8897 Object_Definition => Res_Definition));
8899 -- ... then all components
8901 FA_Append_Record_Traversal (Stms,
8902 Clist => Component_List (Rdef),
8903 Container => Any_Parameter,
8904 Counter => Component_Counter);
8906 Append_To (Stms,
8907 Make_Simple_Return_Statement (Loc,
8908 Expression => New_Occurrence_Of (Res, Loc)));
8909 end;
8910 end if;
8912 elsif Is_Array_Type (Typ) then
8913 declare
8914 Constrained : constant Boolean := Is_Constrained (Typ);
8916 procedure FA_Ary_Add_Process_Element
8917 (Stmts : List_Id;
8918 Any : Entity_Id;
8919 Counter : Entity_Id;
8920 Datum : Node_Id);
8921 -- Assign the current element (as identified by Counter) of
8922 -- Any to the variable denoted by name Datum, and advance
8923 -- Counter by 1. If Datum is not an Any, a call to From_Any
8924 -- for its type is inserted.
8926 --------------------------------
8927 -- FA_Ary_Add_Process_Element --
8928 --------------------------------
8930 procedure FA_Ary_Add_Process_Element
8931 (Stmts : List_Id;
8932 Any : Entity_Id;
8933 Counter : Entity_Id;
8934 Datum : Node_Id)
8936 Assignment : constant Node_Id :=
8937 Make_Assignment_Statement (Loc,
8938 Name => Datum,
8939 Expression => Empty);
8941 Element_Any : Node_Id;
8943 begin
8944 declare
8945 Element_TC : Node_Id;
8947 begin
8948 if Etype (Datum) = RTE (RE_Any) then
8950 -- When Datum is an Any the Etype field is not
8951 -- sufficient to determine the typecode of Datum
8952 -- (which can be a TC_SEQUENCE or TC_ARRAY
8953 -- depending on the value of Constrained).
8955 -- Therefore we retrieve the typecode which has
8956 -- been constructed in Append_Array_Traversal with
8957 -- a call to Get_Any_Type.
8959 Element_TC :=
8960 Make_Function_Call (Loc,
8961 Name => New_Occurrence_Of (
8962 RTE (RE_Get_Any_Type), Loc),
8963 Parameter_Associations => New_List (
8964 New_Occurrence_Of (Entity (Datum), Loc)));
8965 else
8966 -- For non Any Datum we simply construct a typecode
8967 -- matching the Etype of the Datum.
8969 Element_TC := Build_TypeCode_Call
8970 (Loc, Etype (Datum), Decls);
8971 end if;
8973 Element_Any :=
8974 Build_Get_Aggregate_Element (Loc,
8975 Any => Any,
8976 TC => Element_TC,
8977 Idx => New_Occurrence_Of (Counter, Loc));
8978 end;
8980 -- Note: here we *prepend* statements to Stmts, so
8981 -- we must do it in reverse order.
8983 Prepend_To (Stmts,
8984 Make_Assignment_Statement (Loc,
8985 Name =>
8986 New_Occurrence_Of (Counter, Loc),
8987 Expression =>
8988 Make_Op_Add (Loc,
8989 Left_Opnd => New_Occurrence_Of (Counter, Loc),
8990 Right_Opnd => Make_Integer_Literal (Loc, 1))));
8992 if Nkind (Datum) /= N_Attribute_Reference then
8994 -- We ignore the value of the length of each
8995 -- dimension, since the target array has already been
8996 -- constrained anyway.
8998 if Etype (Datum) /= RTE (RE_Any) then
8999 Set_Expression (Assignment,
9000 Build_From_Any_Call
9001 (Component_Type (Typ), Element_Any, Decls));
9002 else
9003 Set_Expression (Assignment, Element_Any);
9004 end if;
9006 Prepend_To (Stmts, Assignment);
9007 end if;
9008 end FA_Ary_Add_Process_Element;
9010 ------------------------
9011 -- Local Declarations --
9012 ------------------------
9014 Counter : constant Entity_Id :=
9015 Make_Defining_Identifier (Loc, Name_J);
9017 Initial_Counter_Value : Int := 0;
9019 Component_TC : constant Entity_Id :=
9020 Make_Defining_Identifier (Loc, Name_T);
9022 Res : constant Entity_Id :=
9023 Make_Defining_Identifier (Loc, Name_R);
9025 procedure Append_From_Any_Array_Iterator is
9026 new Append_Array_Traversal (
9027 Subprogram => Fnam,
9028 Arry => Res,
9029 Indexes => New_List,
9030 Add_Process_Element => FA_Ary_Add_Process_Element);
9032 Res_Subtype_Indication : Node_Id :=
9033 New_Occurrence_Of (Typ, Loc);
9035 begin
9036 if not Constrained then
9037 declare
9038 Ndim : constant Int := Number_Dimensions (Typ);
9039 Lnam : Name_Id;
9040 Hnam : Name_Id;
9041 Indx : Node_Id := First_Index (Typ);
9042 Indt : Entity_Id;
9044 Ranges : constant List_Id := New_List;
9046 begin
9047 for J in 1 .. Ndim loop
9048 Lnam := New_External_Name ('L', J);
9049 Hnam := New_External_Name ('H', J);
9051 -- Note, for empty arrays bounds may be out of
9052 -- the range of Etype (Indx).
9054 Indt := Base_Type (Etype (Indx));
9056 Append_To (Decls,
9057 Make_Object_Declaration (Loc,
9058 Defining_Identifier =>
9059 Make_Defining_Identifier (Loc, Lnam),
9060 Constant_Present => True,
9061 Object_Definition =>
9062 New_Occurrence_Of (Indt, Loc),
9063 Expression =>
9064 Build_From_Any_Call
9065 (Indt,
9066 Build_Get_Aggregate_Element (Loc,
9067 Any => Any_Parameter,
9068 TC => Build_TypeCode_Call
9069 (Loc, Indt, Decls),
9070 Idx =>
9071 Make_Integer_Literal (Loc, J - 1)),
9072 Decls)));
9074 Append_To (Decls,
9075 Make_Object_Declaration (Loc,
9076 Defining_Identifier =>
9077 Make_Defining_Identifier (Loc, Hnam),
9079 Constant_Present => True,
9081 Object_Definition =>
9082 New_Occurrence_Of (Indt, Loc),
9084 Expression => Make_Attribute_Reference (Loc,
9085 Prefix =>
9086 New_Occurrence_Of (Indt, Loc),
9088 Attribute_Name => Name_Val,
9090 Expressions => New_List (
9091 Make_Op_Subtract (Loc,
9092 Left_Opnd =>
9093 Make_Op_Add (Loc,
9094 Left_Opnd =>
9095 OK_Convert_To
9096 (Standard_Long_Integer,
9097 Make_Identifier (Loc, Lnam)),
9099 Right_Opnd =>
9100 OK_Convert_To
9101 (Standard_Long_Integer,
9102 Make_Function_Call (Loc,
9103 Name =>
9104 New_Occurrence_Of (RTE (
9105 RE_Get_Nested_Sequence_Length
9106 ), Loc),
9107 Parameter_Associations =>
9108 New_List (
9109 New_Occurrence_Of (
9110 Any_Parameter, Loc),
9111 Make_Integer_Literal (Loc,
9112 Intval => J))))),
9114 Right_Opnd =>
9115 Make_Integer_Literal (Loc, 1))))));
9117 Append_To (Ranges,
9118 Make_Range (Loc,
9119 Low_Bound => Make_Identifier (Loc, Lnam),
9120 High_Bound => Make_Identifier (Loc, Hnam)));
9122 Next_Index (Indx);
9123 end loop;
9125 -- Now we have all the necessary bound information:
9126 -- apply the set of range constraints to the
9127 -- (unconstrained) nominal subtype of Res.
9129 Initial_Counter_Value := Ndim;
9130 Res_Subtype_Indication := Make_Subtype_Indication (Loc,
9131 Subtype_Mark => Res_Subtype_Indication,
9132 Constraint =>
9133 Make_Index_Or_Discriminant_Constraint (Loc,
9134 Constraints => Ranges));
9135 end;
9136 end if;
9138 Append_To (Decls,
9139 Make_Object_Declaration (Loc,
9140 Defining_Identifier => Res,
9141 Object_Definition => Res_Subtype_Indication));
9142 Set_Etype (Res, Typ);
9144 Append_To (Decls,
9145 Make_Object_Declaration (Loc,
9146 Defining_Identifier => Counter,
9147 Object_Definition =>
9148 New_Occurrence_Of (RTE (RE_Unsigned_32), Loc),
9149 Expression =>
9150 Make_Integer_Literal (Loc, Initial_Counter_Value)));
9152 Append_To (Decls,
9153 Make_Object_Declaration (Loc,
9154 Defining_Identifier => Component_TC,
9155 Constant_Present => True,
9156 Object_Definition =>
9157 New_Occurrence_Of (RTE (RE_TypeCode), Loc),
9158 Expression =>
9159 Build_TypeCode_Call (Loc,
9160 Component_Type (Typ), Decls)));
9162 Append_From_Any_Array_Iterator
9163 (Stms, Any_Parameter, Counter);
9165 Append_To (Stms,
9166 Make_Simple_Return_Statement (Loc,
9167 Expression => New_Occurrence_Of (Res, Loc)));
9168 end;
9170 elsif Is_Integer_Type (Typ) or else Is_Unsigned_Type (Typ) then
9171 Append_To (Stms,
9172 Make_Simple_Return_Statement (Loc,
9173 Expression =>
9174 Unchecked_Convert_To (Typ,
9175 Build_From_Any_Call
9176 (Find_Numeric_Representation (Typ),
9177 New_Occurrence_Of (Any_Parameter, Loc),
9178 Decls))));
9180 else
9181 Use_Opaque_Representation := True;
9182 end if;
9184 if Use_Opaque_Representation then
9185 Assign_Opaque_From_Any (Loc,
9186 Stms => Stms,
9187 Typ => Typ,
9188 N => New_Occurrence_Of (Any_Parameter, Loc),
9189 Target => Empty);
9190 end if;
9192 Decl :=
9193 Make_Subprogram_Body (Loc,
9194 Specification => Spec,
9195 Declarations => Decls,
9196 Handled_Statement_Sequence =>
9197 Make_Handled_Sequence_Of_Statements (Loc,
9198 Statements => Stms));
9199 end Build_From_Any_Function;
9201 ---------------------------------
9202 -- Build_Get_Aggregate_Element --
9203 ---------------------------------
9205 function Build_Get_Aggregate_Element
9206 (Loc : Source_Ptr;
9207 Any : Entity_Id;
9208 TC : Node_Id;
9209 Idx : Node_Id) return Node_Id
9211 begin
9212 return Make_Function_Call (Loc,
9213 Name =>
9214 New_Occurrence_Of (RTE (RE_Get_Aggregate_Element), Loc),
9215 Parameter_Associations => New_List (
9216 New_Occurrence_Of (Any, Loc),
9218 Idx));
9219 end Build_Get_Aggregate_Element;
9221 ----------------------------------
9222 -- Build_Name_And_Repository_Id --
9223 ----------------------------------
9225 procedure Build_Name_And_Repository_Id
9226 (E : Entity_Id;
9227 Name_Str : out String_Id;
9228 Repo_Id_Str : out String_Id)
9230 begin
9231 Name_Str := Fully_Qualified_Name_String (E, Append_NUL => False);
9232 Start_String;
9233 Store_String_Chars ("DSA:");
9234 Store_String_Chars (Name_Str);
9235 Store_String_Chars (":1.0");
9236 Repo_Id_Str := End_String;
9237 end Build_Name_And_Repository_Id;
9239 -----------------------
9240 -- Build_To_Any_Call --
9241 -----------------------
9243 function Build_To_Any_Call
9244 (Loc : Source_Ptr;
9245 N : Node_Id;
9246 Decls : List_Id;
9247 Constrained : Boolean := False) return Node_Id
9249 Typ : Entity_Id := Etype (N);
9250 U_Type : Entity_Id;
9251 C_Type : Entity_Id;
9252 Fnam : Entity_Id := Empty;
9253 Lib_RE : RE_Id := RE_Null;
9255 begin
9256 -- If N is a selected component, then maybe its Etype has not been
9257 -- set yet: try to use Etype of the selector_name in that case.
9259 if No (Typ) and then Nkind (N) = N_Selected_Component then
9260 Typ := Etype (Selector_Name (N));
9261 end if;
9263 pragma Assert (Present (Typ));
9265 -- Get full view for private type, completion for incomplete type
9267 U_Type := Underlying_Type (Typ);
9269 -- First simple case where the To_Any function is present in the
9270 -- type's TSS.
9272 Fnam := Find_Inherited_TSS (U_Type, TSS_To_Any);
9274 -- For the subtype representing a generic actual type, go to the
9275 -- actual type.
9277 if Is_Generic_Actual_Type (U_Type) then
9278 U_Type := Underlying_Type (Base_Type (U_Type));
9279 end if;
9281 -- For a standard subtype, go to the base type
9283 if Sloc (U_Type) <= Standard_Location then
9284 U_Type := Base_Type (U_Type);
9286 -- For a user subtype, go to first subtype
9288 elsif Comes_From_Source (U_Type)
9289 and then Nkind (Declaration_Node (U_Type))
9290 = N_Subtype_Declaration
9291 then
9292 U_Type := First_Subtype (U_Type);
9293 end if;
9295 if Present (Fnam) then
9296 null;
9298 -- Check first for Boolean and Character. These are enumeration
9299 -- types, but we treat them specially, since they may require
9300 -- special handling in the transfer protocol. However, this
9301 -- special handling only applies if they have standard
9302 -- representation, otherwise they are treated like any other
9303 -- enumeration type.
9305 elsif U_Type = Standard_Boolean then
9306 Lib_RE := RE_TA_B;
9308 elsif U_Type = Standard_Character then
9309 Lib_RE := RE_TA_C;
9311 elsif U_Type = Standard_Wide_Character then
9312 Lib_RE := RE_TA_WC;
9314 elsif U_Type = Standard_Wide_Wide_Character then
9315 Lib_RE := RE_TA_WWC;
9317 -- Floating point types
9319 elsif U_Type = Standard_Short_Float then
9320 Lib_RE := RE_TA_SF;
9322 elsif U_Type = Standard_Float then
9323 Lib_RE := RE_TA_F;
9325 elsif U_Type = Standard_Long_Float then
9326 Lib_RE := RE_TA_LF;
9328 elsif U_Type = Standard_Long_Long_Float then
9329 Lib_RE := RE_TA_LLF;
9331 -- Integer types
9333 elsif U_Type = RTE (RE_Integer_8) then
9334 Lib_RE := RE_TA_I8;
9336 elsif U_Type = RTE (RE_Integer_16) then
9337 Lib_RE := RE_TA_I16;
9339 elsif U_Type = RTE (RE_Integer_32) then
9340 Lib_RE := RE_TA_I32;
9342 elsif U_Type = RTE (RE_Integer_64) then
9343 Lib_RE := RE_TA_I64;
9345 -- Unsigned integer types
9347 elsif U_Type = RTE (RE_Unsigned_8) then
9348 Lib_RE := RE_TA_U8;
9350 elsif U_Type = RTE (RE_Unsigned_16) then
9351 Lib_RE := RE_TA_U16;
9353 elsif U_Type = RTE (RE_Unsigned_32) then
9354 Lib_RE := RE_TA_U32;
9356 elsif U_Type = RTE (RE_Unsigned_64) then
9357 Lib_RE := RE_TA_U64;
9359 elsif Is_RTE (U_Type, RE_Unbounded_String) then
9360 Lib_RE := RE_TA_String;
9362 -- Special DSA types
9364 elsif Is_RTE (U_Type, RE_Any_Container_Ptr) then
9365 Lib_RE := RE_TA_A;
9366 U_Type := Typ;
9368 elsif U_Type = Underlying_Type (RTE (RE_TypeCode)) then
9370 -- No corresponding FA_TC ???
9372 Lib_RE := RE_TA_TC;
9374 -- Other (non-primitive) types
9376 else
9377 declare
9378 Decl : Entity_Id;
9379 begin
9380 Build_To_Any_Function (Loc, U_Type, Decl, Fnam);
9381 Append_To (Decls, Decl);
9382 end;
9383 end if;
9385 -- Call the function
9387 if Lib_RE /= RE_Null then
9388 pragma Assert (No (Fnam));
9389 Fnam := RTE (Lib_RE);
9390 end if;
9392 -- If Fnam is already analyzed, find the proper expected type,
9393 -- else we have a newly constructed To_Any function and we know
9394 -- that the expected type of its parameter is U_Type.
9396 if Ekind (Fnam) = E_Function
9397 and then Present (First_Formal (Fnam))
9398 then
9399 C_Type := Etype (First_Formal (Fnam));
9400 else
9401 C_Type := U_Type;
9402 end if;
9404 declare
9405 Params : constant List_Id :=
9406 New_List (OK_Convert_To (C_Type, N));
9407 begin
9408 if Is_Limited_Type (C_Type) then
9409 Append_To (Params,
9410 New_Occurrence_Of (Boolean_Literals (Constrained), Loc));
9411 end if;
9413 return
9414 Make_Function_Call (Loc,
9415 Name => New_Occurrence_Of (Fnam, Loc),
9416 Parameter_Associations => Params);
9417 end;
9418 end Build_To_Any_Call;
9420 ---------------------------
9421 -- Build_To_Any_Function --
9422 ---------------------------
9424 procedure Build_To_Any_Function
9425 (Loc : Source_Ptr;
9426 Typ : Entity_Id;
9427 Decl : out Node_Id;
9428 Fnam : out Entity_Id)
9430 Spec : Node_Id;
9431 Params : List_Id;
9432 Decls : List_Id;
9433 Stms : List_Id;
9435 Expr_Formal : Entity_Id;
9436 Cstr_Formal : Entity_Id := Empty; -- initialize to prevent warning
9437 Any : Entity_Id;
9438 Result_TC : Node_Id;
9440 Any_Decl : Node_Id;
9442 Use_Opaque_Representation : Boolean;
9443 -- When True, use stream attributes and represent type as an
9444 -- opaque sequence of bytes.
9446 begin
9447 -- For a derived type, we can't go past the base type (to the
9448 -- parent type) here, because that would cause the attribute's
9449 -- formal parameter to have the wrong type; hence the Base_Type
9450 -- check here.
9452 if Is_Itype (Typ) and then Typ /= Base_Type (Typ) then
9453 Build_To_Any_Function
9454 (Loc => Loc,
9455 Typ => Etype (Typ),
9456 Decl => Decl,
9457 Fnam => Fnam);
9458 return;
9459 end if;
9461 Decls := New_List;
9462 Stms := New_List;
9464 Any := Make_Defining_Identifier (Loc, Name_A);
9465 Result_TC := Build_TypeCode_Call (Loc, Typ, Decls);
9467 Fnam := Make_Helper_Function_Name (Loc, Typ, Name_To_Any);
9469 Expr_Formal := Make_Defining_Identifier (Loc, Name_E);
9470 Params := New_List (
9471 Make_Parameter_Specification (Loc,
9472 Defining_Identifier => Expr_Formal,
9473 Parameter_Type => New_Occurrence_Of (Typ, Loc)));
9474 Set_Etype (Expr_Formal, Typ);
9476 if Is_Limited_Type (Typ) then
9477 Cstr_Formal := Make_Defining_Identifier (Loc, Name_C);
9478 Append_To (Params,
9479 Make_Parameter_Specification (Loc,
9480 Defining_Identifier => Cstr_Formal,
9481 Parameter_Type =>
9482 New_Occurrence_Of (Standard_Boolean, Loc)));
9483 end if;
9485 Spec :=
9486 Make_Function_Specification (Loc,
9487 Defining_Unit_Name => Fnam,
9488 Parameter_Specifications => Params,
9489 Result_Definition =>
9490 New_Occurrence_Of (RTE (RE_Any), Loc));
9492 Any_Decl :=
9493 Make_Object_Declaration (Loc,
9494 Defining_Identifier => Any,
9495 Object_Definition => New_Occurrence_Of (RTE (RE_Any), Loc));
9497 Use_Opaque_Representation := False;
9499 if Has_Stream_Attribute_Definition
9500 (Typ, TSS_Stream_Output, At_Any_Place => True)
9501 or else
9502 Has_Stream_Attribute_Definition
9503 (Typ, TSS_Stream_Write, At_Any_Place => True)
9504 then
9505 -- If user-defined stream attributes are specified for this
9506 -- type, use them and transmit data as an opaque sequence of
9507 -- stream elements.
9509 Use_Opaque_Representation := True;
9511 elsif Is_Derived_Type (Typ) and then not Is_Tagged_Type (Typ) then
9513 -- Untagged derived type: convert to root type
9515 declare
9516 Rt_Type : constant Entity_Id := Root_Type (Typ);
9517 Expr : constant Node_Id :=
9518 OK_Convert_To
9519 (Rt_Type,
9520 New_Occurrence_Of (Expr_Formal, Loc));
9521 begin
9522 Set_Expression (Any_Decl,
9523 Build_To_Any_Call (Loc, Expr, Decls));
9524 end;
9526 elsif Is_Record_Type (Typ) and then not Is_Tagged_Type (Typ) then
9528 -- Untagged record type
9530 if Nkind (Declaration_Node (Typ)) = N_Subtype_Declaration then
9531 declare
9532 Rt_Type : constant Entity_Id := Etype (Typ);
9533 Expr : constant Node_Id :=
9534 OK_Convert_To (Rt_Type,
9535 New_Occurrence_Of (Expr_Formal, Loc));
9537 begin
9538 Set_Expression
9539 (Any_Decl, Build_To_Any_Call (Loc, Expr, Decls));
9540 end;
9542 -- Comment needed here (and label on declare block ???)
9544 else
9545 declare
9546 Disc : Entity_Id := Empty;
9547 Rdef : constant Node_Id :=
9548 Type_Definition (Declaration_Node (Typ));
9549 Counter : Int := 0;
9550 Elements : constant List_Id := New_List;
9552 procedure TA_Rec_Add_Process_Element
9553 (Stmts : List_Id;
9554 Container : Node_Or_Entity_Id;
9555 Counter : in out Int;
9556 Rec : Entity_Id;
9557 Field : Node_Id);
9558 -- Processing routine for traversal below
9560 procedure TA_Append_Record_Traversal is
9561 new Append_Record_Traversal
9562 (Rec => Expr_Formal,
9563 Add_Process_Element => TA_Rec_Add_Process_Element);
9565 --------------------------------
9566 -- TA_Rec_Add_Process_Element --
9567 --------------------------------
9569 procedure TA_Rec_Add_Process_Element
9570 (Stmts : List_Id;
9571 Container : Node_Or_Entity_Id;
9572 Counter : in out Int;
9573 Rec : Entity_Id;
9574 Field : Node_Id)
9576 Field_Ref : Node_Id;
9578 begin
9579 if Nkind (Field) = N_Defining_Identifier then
9581 -- A regular component
9583 Field_Ref := Make_Selected_Component (Loc,
9584 Prefix => New_Occurrence_Of (Rec, Loc),
9585 Selector_Name => New_Occurrence_Of (Field, Loc));
9586 Set_Etype (Field_Ref, Etype (Field));
9588 Append_To (Stmts,
9589 Make_Procedure_Call_Statement (Loc,
9590 Name =>
9591 New_Occurrence_Of (
9592 RTE (RE_Add_Aggregate_Element), Loc),
9593 Parameter_Associations => New_List (
9594 New_Occurrence_Of (Container, Loc),
9595 Build_To_Any_Call (Loc, Field_Ref, Decls))));
9597 else
9598 -- A variant part
9600 Variant_Part : declare
9601 Variant : Node_Id;
9602 Struct_Counter : Int := 0;
9604 Block_Decls : constant List_Id := New_List;
9605 Block_Stmts : constant List_Id := New_List;
9606 VP_Stmts : List_Id;
9608 Alt_List : constant List_Id := New_List;
9609 Choice_List : List_Id;
9611 Union_Any : constant Entity_Id :=
9612 Make_Temporary (Loc, 'V');
9614 Struct_Any : constant Entity_Id :=
9615 Make_Temporary (Loc, 'S');
9617 function Make_Discriminant_Reference
9618 return Node_Id;
9619 -- Build reference to the discriminant for this
9620 -- variant part.
9622 ---------------------------------
9623 -- Make_Discriminant_Reference --
9624 ---------------------------------
9626 function Make_Discriminant_Reference
9627 return Node_Id
9629 Nod : constant Node_Id :=
9630 Make_Selected_Component (Loc,
9631 Prefix => Rec,
9632 Selector_Name =>
9633 Chars (Name (Field)));
9634 begin
9635 Set_Etype (Nod, Etype (Name (Field)));
9636 return Nod;
9637 end Make_Discriminant_Reference;
9639 -- Start of processing for Variant_Part
9641 begin
9642 Append_To (Stmts,
9643 Make_Block_Statement (Loc,
9644 Declarations =>
9645 Block_Decls,
9646 Handled_Statement_Sequence =>
9647 Make_Handled_Sequence_Of_Statements (Loc,
9648 Statements => Block_Stmts)));
9650 -- Declare variant part aggregate (Union_Any).
9651 -- Knowing the position of this VP in the
9652 -- variant record, we can fetch the VP typecode
9653 -- from Container.
9655 Append_To (Block_Decls,
9656 Make_Object_Declaration (Loc,
9657 Defining_Identifier => Union_Any,
9658 Object_Definition =>
9659 New_Occurrence_Of (RTE (RE_Any), Loc),
9660 Expression =>
9661 Make_Function_Call (Loc,
9662 Name => New_Occurrence_Of (
9663 RTE (RE_Create_Any), Loc),
9664 Parameter_Associations => New_List (
9665 Make_Function_Call (Loc,
9666 Name =>
9667 New_Occurrence_Of (
9668 RTE (RE_Any_Member_Type), Loc),
9669 Parameter_Associations => New_List (
9670 New_Occurrence_Of (Container, Loc),
9671 Make_Integer_Literal (Loc,
9672 Counter)))))));
9674 -- Declare inner struct aggregate (which
9675 -- contains the components of this VP).
9677 Append_To (Block_Decls,
9678 Make_Object_Declaration (Loc,
9679 Defining_Identifier => Struct_Any,
9680 Object_Definition =>
9681 New_Occurrence_Of (RTE (RE_Any), Loc),
9682 Expression =>
9683 Make_Function_Call (Loc,
9684 Name => New_Occurrence_Of (
9685 RTE (RE_Create_Any), Loc),
9686 Parameter_Associations => New_List (
9687 Make_Function_Call (Loc,
9688 Name =>
9689 New_Occurrence_Of (
9690 RTE (RE_Any_Member_Type), Loc),
9691 Parameter_Associations => New_List (
9692 New_Occurrence_Of (Union_Any, Loc),
9693 Make_Integer_Literal (Loc,
9694 Uint_1)))))));
9696 -- Build case statement
9698 Append_To (Block_Stmts,
9699 Make_Case_Statement (Loc,
9700 Expression => Make_Discriminant_Reference,
9701 Alternatives => Alt_List));
9703 Variant := First_Non_Pragma (Variants (Field));
9704 while Present (Variant) loop
9705 Choice_List := New_Copy_List_Tree
9706 (Discrete_Choices (Variant));
9708 VP_Stmts := New_List;
9710 -- Append discriminant val to union aggregate
9712 Append_To (VP_Stmts,
9713 Make_Procedure_Call_Statement (Loc,
9714 Name =>
9715 New_Occurrence_Of (
9716 RTE (RE_Add_Aggregate_Element), Loc),
9717 Parameter_Associations => New_List (
9718 New_Occurrence_Of (Union_Any, Loc),
9719 Build_To_Any_Call
9720 (Loc,
9721 Make_Discriminant_Reference,
9722 Block_Decls))));
9724 -- Populate inner struct aggregate
9726 -- Struct_Counter should be reset before
9727 -- handling a variant part. Indeed only one
9728 -- of the case statement alternatives will be
9729 -- executed at run time, so the counter must
9730 -- start at 0 for every case statement.
9732 Struct_Counter := 0;
9734 TA_Append_Record_Traversal
9735 (Stmts => VP_Stmts,
9736 Clist => Component_List (Variant),
9737 Container => Struct_Any,
9738 Counter => Struct_Counter);
9740 -- Append inner struct to union aggregate
9742 Append_To (VP_Stmts,
9743 Make_Procedure_Call_Statement (Loc,
9744 Name =>
9745 New_Occurrence_Of
9746 (RTE (RE_Add_Aggregate_Element), Loc),
9747 Parameter_Associations => New_List (
9748 New_Occurrence_Of (Union_Any, Loc),
9749 New_Occurrence_Of (Struct_Any, Loc))));
9751 -- Append union to outer aggregate
9753 Append_To (VP_Stmts,
9754 Make_Procedure_Call_Statement (Loc,
9755 Name =>
9756 New_Occurrence_Of
9757 (RTE (RE_Add_Aggregate_Element), Loc),
9758 Parameter_Associations => New_List (
9759 New_Occurrence_Of (Container, Loc),
9760 New_Occurrence_Of
9761 (Union_Any, Loc))));
9763 Append_To (Alt_List,
9764 Make_Case_Statement_Alternative (Loc,
9765 Discrete_Choices => Choice_List,
9766 Statements => VP_Stmts));
9768 Next_Non_Pragma (Variant);
9769 end loop;
9770 end Variant_Part;
9771 end if;
9773 Counter := Counter + 1;
9774 end TA_Rec_Add_Process_Element;
9776 begin
9777 -- Records are encoded in a TC_STRUCT aggregate:
9779 -- -- Outer aggregate (TC_STRUCT)
9780 -- | [discriminant1]
9781 -- | [discriminant2]
9782 -- | ...
9783 -- |
9784 -- | [component1]
9785 -- | [component2]
9786 -- | ...
9788 -- A component can be a common component or variant part
9790 -- A variant part is encoded as a TC_UNION aggregate:
9792 -- -- Variant Part Aggregate (TC_UNION)
9793 -- | [discriminant choice for this Variant Part]
9794 -- |
9795 -- | -- Inner struct (TC_STRUCT)
9796 -- | | [component1]
9797 -- | | [component2]
9798 -- | | ...
9800 -- Let's start by building the outer aggregate. First we
9801 -- construct Elements array containing all discriminants.
9803 if Has_Discriminants (Typ) then
9804 Disc := First_Discriminant (Typ);
9805 while Present (Disc) loop
9806 declare
9807 Discriminant : constant Entity_Id :=
9808 Make_Selected_Component (Loc,
9809 Prefix => Expr_Formal,
9810 Selector_Name => Chars (Disc));
9811 begin
9812 Set_Etype (Discriminant, Etype (Disc));
9813 Append_To (Elements,
9814 Make_Component_Association (Loc,
9815 Choices => New_List (
9816 Make_Integer_Literal (Loc, Counter)),
9817 Expression =>
9818 Build_To_Any_Call (Loc,
9819 Discriminant, Decls)));
9820 end;
9822 Counter := Counter + 1;
9823 Next_Discriminant (Disc);
9824 end loop;
9826 else
9827 -- If there are no discriminants, we declare an empty
9828 -- Elements array.
9830 declare
9831 Dummy_Any : constant Entity_Id :=
9832 Make_Temporary (Loc, 'A');
9834 begin
9835 Append_To (Decls,
9836 Make_Object_Declaration (Loc,
9837 Defining_Identifier => Dummy_Any,
9838 Object_Definition =>
9839 New_Occurrence_Of (RTE (RE_Any), Loc)));
9841 Append_To (Elements,
9842 Make_Component_Association (Loc,
9843 Choices => New_List (
9844 Make_Range (Loc,
9845 Low_Bound =>
9846 Make_Integer_Literal (Loc, 1),
9847 High_Bound =>
9848 Make_Integer_Literal (Loc, 0))),
9849 Expression =>
9850 New_Occurrence_Of (Dummy_Any, Loc)));
9851 end;
9852 end if;
9854 -- We build the result aggregate with discriminants
9855 -- as the first elements.
9857 Set_Expression (Any_Decl,
9858 Make_Function_Call (Loc,
9859 Name => New_Occurrence_Of
9860 (RTE (RE_Any_Aggregate_Build), Loc),
9861 Parameter_Associations => New_List (
9862 Result_TC,
9863 Make_Aggregate (Loc,
9864 Component_Associations => Elements))));
9865 Result_TC := Empty;
9867 -- Then we append all the components to the result
9868 -- aggregate.
9870 TA_Append_Record_Traversal (Stms,
9871 Clist => Component_List (Rdef),
9872 Container => Any,
9873 Counter => Counter);
9874 end;
9875 end if;
9877 elsif Is_Array_Type (Typ) then
9879 -- Constrained and unconstrained array types
9881 declare
9882 Constrained : constant Boolean :=
9883 not Transmit_As_Unconstrained (Typ);
9885 procedure TA_Ary_Add_Process_Element
9886 (Stmts : List_Id;
9887 Any : Entity_Id;
9888 Counter : Entity_Id;
9889 Datum : Node_Id);
9891 --------------------------------
9892 -- TA_Ary_Add_Process_Element --
9893 --------------------------------
9895 procedure TA_Ary_Add_Process_Element
9896 (Stmts : List_Id;
9897 Any : Entity_Id;
9898 Counter : Entity_Id;
9899 Datum : Node_Id)
9901 pragma Unreferenced (Counter);
9903 Element_Any : Node_Id;
9905 begin
9906 if Etype (Datum) = RTE (RE_Any) then
9907 Element_Any := Datum;
9908 else
9909 Element_Any := Build_To_Any_Call (Loc, Datum, Decls);
9910 end if;
9912 Append_To (Stmts,
9913 Make_Procedure_Call_Statement (Loc,
9914 Name => New_Occurrence_Of (
9915 RTE (RE_Add_Aggregate_Element), Loc),
9916 Parameter_Associations => New_List (
9917 New_Occurrence_Of (Any, Loc),
9918 Element_Any)));
9919 end TA_Ary_Add_Process_Element;
9921 procedure Append_To_Any_Array_Iterator is
9922 new Append_Array_Traversal (
9923 Subprogram => Fnam,
9924 Arry => Expr_Formal,
9925 Indexes => New_List,
9926 Add_Process_Element => TA_Ary_Add_Process_Element);
9928 Index : Node_Id;
9930 begin
9931 Set_Expression (Any_Decl,
9932 Make_Function_Call (Loc,
9933 Name =>
9934 New_Occurrence_Of (RTE (RE_Create_Any), Loc),
9935 Parameter_Associations => New_List (Result_TC)));
9936 Result_TC := Empty;
9938 if not Constrained then
9939 Index := First_Index (Typ);
9940 for J in 1 .. Number_Dimensions (Typ) loop
9941 Append_To (Stms,
9942 Make_Procedure_Call_Statement (Loc,
9943 Name =>
9944 New_Occurrence_Of
9945 (RTE (RE_Add_Aggregate_Element), Loc),
9946 Parameter_Associations => New_List (
9947 New_Occurrence_Of (Any, Loc),
9948 Build_To_Any_Call (Loc,
9949 OK_Convert_To (Etype (Index),
9950 Make_Attribute_Reference (Loc,
9951 Prefix =>
9952 New_Occurrence_Of (Expr_Formal, Loc),
9953 Attribute_Name => Name_First,
9954 Expressions => New_List (
9955 Make_Integer_Literal (Loc, J)))),
9956 Decls))));
9957 Next_Index (Index);
9958 end loop;
9959 end if;
9961 Append_To_Any_Array_Iterator (Stms, Any);
9962 end;
9964 elsif Is_Integer_Type (Typ) or else Is_Unsigned_Type (Typ) then
9966 -- Integer types
9968 Set_Expression (Any_Decl,
9969 Build_To_Any_Call (Loc,
9970 OK_Convert_To (
9971 Find_Numeric_Representation (Typ),
9972 New_Occurrence_Of (Expr_Formal, Loc)),
9973 Decls));
9975 else
9976 -- Default case, including tagged types: opaque representation
9978 Use_Opaque_Representation := True;
9979 end if;
9981 if Use_Opaque_Representation then
9982 declare
9983 Strm : constant Entity_Id := Make_Temporary (Loc, 'S');
9984 -- Stream used to store data representation produced by
9985 -- stream attribute.
9987 begin
9988 -- Generate:
9989 -- Strm : aliased Buffer_Stream_Type;
9991 Append_To (Decls,
9992 Make_Object_Declaration (Loc,
9993 Defining_Identifier => Strm,
9994 Aliased_Present => True,
9995 Object_Definition =>
9996 New_Occurrence_Of (RTE (RE_Buffer_Stream_Type), Loc)));
9998 -- Generate:
9999 -- T'Output (Strm'Access, E);
10000 -- or
10001 -- T'Write (Strm'Access, E);
10002 -- depending on whether to transmit as unconstrained.
10004 -- For limited types, select at run time depending on
10005 -- Constrained parameter.
10007 declare
10008 function Stream_Call (Attr : Name_Id) return Node_Id;
10009 -- Return a call to the named attribute
10011 -----------------
10012 -- Stream_Call --
10013 -----------------
10015 function Stream_Call (Attr : Name_Id) return Node_Id is
10016 begin
10017 return Make_Attribute_Reference (Loc,
10018 Prefix =>
10019 New_Occurrence_Of (Typ, Loc),
10020 Attribute_Name => Attr,
10021 Expressions => New_List (
10022 Make_Attribute_Reference (Loc,
10023 Prefix =>
10024 New_Occurrence_Of (Strm, Loc),
10025 Attribute_Name => Name_Access),
10026 New_Occurrence_Of (Expr_Formal, Loc)));
10028 end Stream_Call;
10030 begin
10031 if Is_Limited_Type (Typ) then
10032 Append_To (Stms,
10033 Make_Implicit_If_Statement (Typ,
10034 Condition =>
10035 New_Occurrence_Of (Cstr_Formal, Loc),
10036 Then_Statements => New_List (
10037 Stream_Call (Name_Write)),
10038 Else_Statements => New_List (
10039 Stream_Call (Name_Output))));
10041 elsif Transmit_As_Unconstrained (Typ) then
10042 Append_To (Stms, Stream_Call (Name_Output));
10044 else
10045 Append_To (Stms, Stream_Call (Name_Write));
10046 end if;
10047 end;
10049 -- Generate:
10050 -- BS_To_Any (Strm, A);
10052 Append_To (Stms,
10053 Make_Procedure_Call_Statement (Loc,
10054 Name =>
10055 New_Occurrence_Of (RTE (RE_BS_To_Any), Loc),
10056 Parameter_Associations => New_List (
10057 New_Occurrence_Of (Strm, Loc),
10058 New_Occurrence_Of (Any, Loc))));
10060 -- Generate:
10061 -- Release_Buffer (Strm);
10063 Append_To (Stms,
10064 Make_Procedure_Call_Statement (Loc,
10065 Name =>
10066 New_Occurrence_Of (RTE (RE_Release_Buffer), Loc),
10067 Parameter_Associations => New_List (
10068 New_Occurrence_Of (Strm, Loc))));
10069 end;
10070 end if;
10072 Append_To (Decls, Any_Decl);
10074 if Present (Result_TC) then
10075 Append_To (Stms,
10076 Make_Procedure_Call_Statement (Loc,
10077 Name =>
10078 New_Occurrence_Of (RTE (RE_Set_TC), Loc),
10079 Parameter_Associations => New_List (
10080 New_Occurrence_Of (Any, Loc),
10081 Result_TC)));
10082 end if;
10084 Append_To (Stms,
10085 Make_Simple_Return_Statement (Loc,
10086 Expression => New_Occurrence_Of (Any, Loc)));
10088 Decl :=
10089 Make_Subprogram_Body (Loc,
10090 Specification => Spec,
10091 Declarations => Decls,
10092 Handled_Statement_Sequence =>
10093 Make_Handled_Sequence_Of_Statements (Loc,
10094 Statements => Stms));
10095 end Build_To_Any_Function;
10097 -------------------------
10098 -- Build_TypeCode_Call --
10099 -------------------------
10101 function Build_TypeCode_Call
10102 (Loc : Source_Ptr;
10103 Typ : Entity_Id;
10104 Decls : List_Id) return Node_Id
10106 U_Type : Entity_Id := Underlying_Type (Typ);
10107 -- The full view, if Typ is private; the completion,
10108 -- if Typ is incomplete.
10110 Fnam : Entity_Id := Empty;
10111 Lib_RE : RE_Id := RE_Null;
10112 Expr : Node_Id;
10114 begin
10115 -- Special case System.PolyORB.Interface.Any: its primitives have
10116 -- not been set yet, so can't call Find_Inherited_TSS.
10118 if Typ = RTE (RE_Any) then
10119 Fnam := RTE (RE_TC_A);
10121 else
10122 -- First simple case where the TypeCode is present
10123 -- in the type's TSS.
10125 Fnam := Find_Inherited_TSS (U_Type, TSS_TypeCode);
10126 end if;
10128 -- For the subtype representing a generic actual type, go to the
10129 -- actual type.
10131 if Is_Generic_Actual_Type (U_Type) then
10132 U_Type := Underlying_Type (Base_Type (U_Type));
10133 end if;
10135 -- For a standard subtype, go to the base type
10137 if Sloc (U_Type) <= Standard_Location then
10138 U_Type := Base_Type (U_Type);
10140 -- For a user subtype, go to first subtype
10142 elsif Comes_From_Source (U_Type)
10143 and then Nkind (Declaration_Node (U_Type))
10144 = N_Subtype_Declaration
10145 then
10146 U_Type := First_Subtype (U_Type);
10147 end if;
10149 if No (Fnam) then
10150 if U_Type = Standard_Boolean then
10151 Lib_RE := RE_TC_B;
10153 elsif U_Type = Standard_Character then
10154 Lib_RE := RE_TC_C;
10156 elsif U_Type = Standard_Wide_Character then
10157 Lib_RE := RE_TC_WC;
10159 elsif U_Type = Standard_Wide_Wide_Character then
10160 Lib_RE := RE_TC_WWC;
10162 -- Floating point types
10164 elsif U_Type = Standard_Short_Float then
10165 Lib_RE := RE_TC_SF;
10167 elsif U_Type = Standard_Float then
10168 Lib_RE := RE_TC_F;
10170 elsif U_Type = Standard_Long_Float then
10171 Lib_RE := RE_TC_LF;
10173 elsif U_Type = Standard_Long_Long_Float then
10174 Lib_RE := RE_TC_LLF;
10176 -- Integer types (walk back to the base type)
10178 elsif U_Type = RTE (RE_Integer_8) then
10179 Lib_RE := RE_TC_I8;
10181 elsif U_Type = RTE (RE_Integer_16) then
10182 Lib_RE := RE_TC_I16;
10184 elsif U_Type = RTE (RE_Integer_32) then
10185 Lib_RE := RE_TC_I32;
10187 elsif U_Type = RTE (RE_Integer_64) then
10188 Lib_RE := RE_TC_I64;
10190 -- Unsigned integer types
10192 elsif U_Type = RTE (RE_Unsigned_8) then
10193 Lib_RE := RE_TC_U8;
10195 elsif U_Type = RTE (RE_Unsigned_16) then
10196 Lib_RE := RE_TC_U16;
10198 elsif U_Type = RTE (RE_Unsigned_32) then
10199 Lib_RE := RE_TC_U32;
10201 elsif U_Type = RTE (RE_Unsigned_64) then
10202 Lib_RE := RE_TC_U64;
10204 elsif Is_RTE (U_Type, RE_Unbounded_String) then
10205 Lib_RE := RE_TC_String;
10207 -- Special DSA types
10209 elsif Is_RTE (U_Type, RE_Any_Container_Ptr) then
10210 Lib_RE := RE_TC_A;
10212 -- Other (non-primitive) types
10214 else
10215 declare
10216 Decl : Entity_Id;
10217 begin
10218 Build_TypeCode_Function (Loc, U_Type, Decl, Fnam);
10219 Append_To (Decls, Decl);
10220 end;
10221 end if;
10223 if Lib_RE /= RE_Null then
10224 Fnam := RTE (Lib_RE);
10225 end if;
10226 end if;
10228 -- Call the function
10230 Expr :=
10231 Make_Function_Call (Loc, Name => New_Occurrence_Of (Fnam, Loc));
10233 -- Allow Expr to be used as arg to Build_To_Any_Call immediately
10235 Set_Etype (Expr, RTE (RE_TypeCode));
10237 return Expr;
10238 end Build_TypeCode_Call;
10240 -----------------------------
10241 -- Build_TypeCode_Function --
10242 -----------------------------
10244 procedure Build_TypeCode_Function
10245 (Loc : Source_Ptr;
10246 Typ : Entity_Id;
10247 Decl : out Node_Id;
10248 Fnam : out Entity_Id)
10250 Spec : Node_Id;
10251 Decls : constant List_Id := New_List;
10252 Stms : constant List_Id := New_List;
10254 TCNam : constant Entity_Id :=
10255 Make_Helper_Function_Name (Loc, Typ, Name_TypeCode);
10257 Parameters : List_Id;
10259 procedure Add_String_Parameter
10260 (S : String_Id;
10261 Parameter_List : List_Id);
10262 -- Add a literal for S to Parameters
10264 procedure Add_TypeCode_Parameter
10265 (TC_Node : Node_Id;
10266 Parameter_List : List_Id);
10267 -- Add the typecode for Typ to Parameters
10269 procedure Add_Long_Parameter
10270 (Expr_Node : Node_Id;
10271 Parameter_List : List_Id);
10272 -- Add a signed long integer expression to Parameters
10274 procedure Initialize_Parameter_List
10275 (Name_String : String_Id;
10276 Repo_Id_String : String_Id;
10277 Parameter_List : out List_Id);
10278 -- Return a list that contains the first two parameters
10279 -- for a parameterized typecode: name and repository id.
10281 function Make_Constructed_TypeCode
10282 (Kind : Entity_Id;
10283 Parameters : List_Id) return Node_Id;
10284 -- Call Build_Complex_TC with the given kind and parameters
10286 procedure Return_Constructed_TypeCode (Kind : Entity_Id);
10287 -- Make a return statement that calls Build_Complex_TC with the
10288 -- given typecode kind, and the constructed parameters list.
10290 procedure Return_Alias_TypeCode (Base_TypeCode : Node_Id);
10291 -- Return a typecode that is a TC_Alias for the given typecode
10293 --------------------------
10294 -- Add_String_Parameter --
10295 --------------------------
10297 procedure Add_String_Parameter
10298 (S : String_Id;
10299 Parameter_List : List_Id)
10301 begin
10302 Append_To (Parameter_List,
10303 Make_Function_Call (Loc,
10304 Name => New_Occurrence_Of (RTE (RE_TA_Std_String), Loc),
10305 Parameter_Associations => New_List (
10306 Make_String_Literal (Loc, S))));
10307 end Add_String_Parameter;
10309 ----------------------------
10310 -- Add_TypeCode_Parameter --
10311 ----------------------------
10313 procedure Add_TypeCode_Parameter
10314 (TC_Node : Node_Id;
10315 Parameter_List : List_Id)
10317 begin
10318 Append_To (Parameter_List,
10319 Make_Function_Call (Loc,
10320 Name => New_Occurrence_Of (RTE (RE_TA_TC), Loc),
10321 Parameter_Associations => New_List (TC_Node)));
10322 end Add_TypeCode_Parameter;
10324 ------------------------
10325 -- Add_Long_Parameter --
10326 ------------------------
10328 procedure Add_Long_Parameter
10329 (Expr_Node : Node_Id;
10330 Parameter_List : List_Id)
10332 begin
10333 Append_To (Parameter_List,
10334 Make_Function_Call (Loc,
10335 Name =>
10336 New_Occurrence_Of (RTE (RE_TA_I32), Loc),
10337 Parameter_Associations => New_List (Expr_Node)));
10338 end Add_Long_Parameter;
10340 -------------------------------
10341 -- Initialize_Parameter_List --
10342 -------------------------------
10344 procedure Initialize_Parameter_List
10345 (Name_String : String_Id;
10346 Repo_Id_String : String_Id;
10347 Parameter_List : out List_Id)
10349 begin
10350 Parameter_List := New_List;
10351 Add_String_Parameter (Name_String, Parameter_List);
10352 Add_String_Parameter (Repo_Id_String, Parameter_List);
10353 end Initialize_Parameter_List;
10355 ---------------------------
10356 -- Return_Alias_TypeCode --
10357 ---------------------------
10359 procedure Return_Alias_TypeCode (Base_TypeCode : Node_Id) is
10360 begin
10361 Add_TypeCode_Parameter (Base_TypeCode, Parameters);
10362 Return_Constructed_TypeCode (RTE (RE_Tk_Alias));
10363 end Return_Alias_TypeCode;
10365 -------------------------------
10366 -- Make_Constructed_TypeCode --
10367 -------------------------------
10369 function Make_Constructed_TypeCode
10370 (Kind : Entity_Id;
10371 Parameters : List_Id) return Node_Id
10373 Constructed_TC : constant Node_Id :=
10374 Make_Function_Call (Loc,
10375 Name =>
10376 New_Occurrence_Of (RTE (RE_Build_Complex_TC), Loc),
10377 Parameter_Associations => New_List (
10378 New_Occurrence_Of (Kind, Loc),
10379 Make_Aggregate (Loc,
10380 Expressions => Parameters)));
10381 begin
10382 Set_Etype (Constructed_TC, RTE (RE_TypeCode));
10383 return Constructed_TC;
10384 end Make_Constructed_TypeCode;
10386 ---------------------------------
10387 -- Return_Constructed_TypeCode --
10388 ---------------------------------
10390 procedure Return_Constructed_TypeCode (Kind : Entity_Id) is
10391 begin
10392 Append_To (Stms,
10393 Make_Simple_Return_Statement (Loc,
10394 Expression =>
10395 Make_Constructed_TypeCode (Kind, Parameters)));
10396 end Return_Constructed_TypeCode;
10398 ------------------
10399 -- Record types --
10400 ------------------
10402 procedure TC_Rec_Add_Process_Element
10403 (Params : List_Id;
10404 Any : Entity_Id;
10405 Counter : in out Int;
10406 Rec : Entity_Id;
10407 Field : Node_Id);
10409 procedure TC_Append_Record_Traversal is
10410 new Append_Record_Traversal (
10411 Rec => Empty,
10412 Add_Process_Element => TC_Rec_Add_Process_Element);
10414 --------------------------------
10415 -- TC_Rec_Add_Process_Element --
10416 --------------------------------
10418 procedure TC_Rec_Add_Process_Element
10419 (Params : List_Id;
10420 Any : Entity_Id;
10421 Counter : in out Int;
10422 Rec : Entity_Id;
10423 Field : Node_Id)
10425 pragma Unreferenced (Any, Counter, Rec);
10427 begin
10428 if Nkind (Field) = N_Defining_Identifier then
10430 -- A regular component
10432 Add_TypeCode_Parameter
10433 (Build_TypeCode_Call (Loc, Etype (Field), Decls), Params);
10434 Get_Name_String (Chars (Field));
10435 Add_String_Parameter (String_From_Name_Buffer, Params);
10437 else
10439 -- A variant part
10441 Variant_Part : declare
10442 Disc_Type : constant Entity_Id := Etype (Name (Field));
10444 Is_Enum : constant Boolean :=
10445 Is_Enumeration_Type (Disc_Type);
10447 Union_TC_Params : List_Id;
10449 U_Name : constant Name_Id :=
10450 New_External_Name (Chars (Typ), 'V', -1);
10452 Name_Str : String_Id;
10453 Struct_TC_Params : List_Id;
10455 Variant : Node_Id;
10456 Choice : Node_Id;
10457 Default : constant Node_Id :=
10458 Make_Integer_Literal (Loc, -1);
10460 Dummy_Counter : Int := 0;
10462 Choice_Index : Int := 0;
10463 -- Index of current choice in TypeCode, used to identify
10464 -- it as the default choice if it is a "when others".
10466 procedure Add_Params_For_Variant_Components;
10467 -- Add a struct TypeCode and a corresponding member name
10468 -- to the union parameter list.
10470 -- Ordering of declarations is a complete mess in this
10471 -- area, it is supposed to be types/variables, then
10472 -- subprogram specs, then subprogram bodies ???
10474 ---------------------------------------
10475 -- Add_Params_For_Variant_Components --
10476 ---------------------------------------
10478 procedure Add_Params_For_Variant_Components is
10479 S_Name : constant Name_Id :=
10480 New_External_Name (U_Name, 'S', -1);
10482 begin
10483 Get_Name_String (S_Name);
10484 Name_Str := String_From_Name_Buffer;
10485 Initialize_Parameter_List
10486 (Name_Str, Name_Str, Struct_TC_Params);
10488 -- Build struct parameters
10490 TC_Append_Record_Traversal (Struct_TC_Params,
10491 Component_List (Variant),
10492 Empty,
10493 Dummy_Counter);
10495 Add_TypeCode_Parameter
10496 (Make_Constructed_TypeCode
10497 (RTE (RE_Tk_Struct), Struct_TC_Params),
10498 Union_TC_Params);
10500 Add_String_Parameter (Name_Str, Union_TC_Params);
10501 end Add_Params_For_Variant_Components;
10503 -- Start of processing for Variant_Part
10505 begin
10506 Get_Name_String (U_Name);
10507 Name_Str := String_From_Name_Buffer;
10509 Initialize_Parameter_List
10510 (Name_Str, Name_Str, Union_TC_Params);
10512 -- Add union in enclosing parameter list
10514 Add_TypeCode_Parameter
10515 (Make_Constructed_TypeCode
10516 (RTE (RE_Tk_Union), Union_TC_Params),
10517 Params);
10519 Add_String_Parameter (Name_Str, Params);
10521 -- Build union parameters
10523 Add_TypeCode_Parameter
10524 (Build_TypeCode_Call (Loc, Disc_Type, Decls),
10525 Union_TC_Params);
10527 Add_Long_Parameter (Default, Union_TC_Params);
10529 Variant := First_Non_Pragma (Variants (Field));
10530 while Present (Variant) loop
10531 Choice := First (Discrete_Choices (Variant));
10532 while Present (Choice) loop
10533 case Nkind (Choice) is
10534 when N_Range =>
10535 declare
10536 L : constant Uint :=
10537 Expr_Value (Low_Bound (Choice));
10538 H : constant Uint :=
10539 Expr_Value (High_Bound (Choice));
10540 J : Uint := L;
10541 -- 3.8.1(8) guarantees that the bounds of
10542 -- this range are static.
10544 Expr : Node_Id;
10546 begin
10547 while J <= H loop
10548 if Is_Enum then
10549 Expr := Get_Enum_Lit_From_Pos
10550 (Disc_Type, J, Loc);
10551 else
10552 Expr :=
10553 Make_Integer_Literal (Loc, J);
10554 end if;
10556 Set_Etype (Expr, Disc_Type);
10557 Append_To (Union_TC_Params,
10558 Build_To_Any_Call (Loc, Expr, Decls));
10560 Add_Params_For_Variant_Components;
10561 J := J + Uint_1;
10562 end loop;
10564 Choice_Index :=
10565 Choice_Index + UI_To_Int (H - L) + 1;
10566 end;
10568 when N_Others_Choice =>
10570 -- This variant has a default choice. We must
10571 -- therefore set the default parameter to the
10572 -- current choice index. This parameter is by
10573 -- construction the 4th in Union_TC_Params.
10575 Replace
10576 (Pick (Union_TC_Params, 4),
10577 Make_Function_Call (Loc,
10578 Name =>
10579 New_Occurrence_Of
10580 (RTE (RE_TA_I32), Loc),
10581 Parameter_Associations =>
10582 New_List (
10583 Make_Integer_Literal (Loc,
10584 Intval => Choice_Index))));
10586 -- Add a placeholder member label for the
10587 -- default case, which must have the
10588 -- discriminant type.
10590 declare
10591 Exp : constant Node_Id :=
10592 Make_Attribute_Reference (Loc,
10593 Prefix => New_Occurrence_Of
10594 (Disc_Type, Loc),
10595 Attribute_Name => Name_First);
10596 begin
10597 Set_Etype (Exp, Disc_Type);
10598 Append_To (Union_TC_Params,
10599 Build_To_Any_Call (Loc, Exp, Decls));
10600 end;
10602 Add_Params_For_Variant_Components;
10603 Choice_Index := Choice_Index + 1;
10605 -- Case of an explicit choice
10607 when others =>
10608 declare
10609 Exp : constant Node_Id :=
10610 New_Copy_Tree (Choice);
10611 begin
10612 Append_To (Union_TC_Params,
10613 Build_To_Any_Call (Loc, Exp, Decls));
10614 end;
10616 Add_Params_For_Variant_Components;
10617 Choice_Index := Choice_Index + 1;
10618 end case;
10620 Next (Choice);
10621 end loop;
10623 Next_Non_Pragma (Variant);
10624 end loop;
10625 end Variant_Part;
10626 end if;
10627 end TC_Rec_Add_Process_Element;
10629 Type_Name_Str : String_Id;
10630 Type_Repo_Id_Str : String_Id;
10632 -- Start of processing for Build_TypeCode_Function
10634 begin
10635 -- For a derived type, we can't go past the base type (to the
10636 -- parent type) here, because that would cause the attribute's
10637 -- formal parameter to have the wrong type; hence the Base_Type
10638 -- check here.
10640 if Is_Itype (Typ) and then Typ /= Base_Type (Typ) then
10641 Build_TypeCode_Function
10642 (Loc => Loc,
10643 Typ => Etype (Typ),
10644 Decl => Decl,
10645 Fnam => Fnam);
10646 return;
10647 end if;
10649 Fnam := TCNam;
10651 Spec :=
10652 Make_Function_Specification (Loc,
10653 Defining_Unit_Name => Fnam,
10654 Parameter_Specifications => Empty_List,
10655 Result_Definition =>
10656 New_Occurrence_Of (RTE (RE_TypeCode), Loc));
10658 Build_Name_And_Repository_Id (Typ,
10659 Name_Str => Type_Name_Str, Repo_Id_Str => Type_Repo_Id_Str);
10661 Initialize_Parameter_List
10662 (Type_Name_Str, Type_Repo_Id_Str, Parameters);
10664 if Has_Stream_Attribute_Definition
10665 (Typ, TSS_Stream_Output, At_Any_Place => True)
10666 or else
10667 Has_Stream_Attribute_Definition
10668 (Typ, TSS_Stream_Write, At_Any_Place => True)
10669 then
10670 -- If user-defined stream attributes are specified for this
10671 -- type, use them and transmit data as an opaque sequence of
10672 -- stream elements.
10674 Return_Alias_TypeCode
10675 (New_Occurrence_Of (RTE (RE_TC_Opaque), Loc));
10677 elsif Is_Derived_Type (Typ) and then not Is_Tagged_Type (Typ) then
10678 Return_Alias_TypeCode (
10679 Build_TypeCode_Call (Loc, Etype (Typ), Decls));
10681 elsif Is_Integer_Type (Typ) or else Is_Unsigned_Type (Typ) then
10682 Return_Alias_TypeCode (
10683 Build_TypeCode_Call (Loc,
10684 Find_Numeric_Representation (Typ), Decls));
10686 elsif Is_Record_Type (Typ) and then not Is_Tagged_Type (Typ) then
10688 -- Record typecodes are encoded as follows:
10689 -- -- TC_STRUCT
10690 -- |
10691 -- | [Name]
10692 -- | [Repository Id]
10694 -- Then for each discriminant:
10696 -- | [Discriminant Type Code]
10697 -- | [Discriminant Name]
10698 -- | ...
10700 -- Then for each component:
10702 -- | [Component Type Code]
10703 -- | [Component Name]
10704 -- | ...
10706 -- Variants components type codes are encoded as follows:
10707 -- -- TC_UNION
10708 -- |
10709 -- | [Name]
10710 -- | [Repository Id]
10711 -- | [Discriminant Type Code]
10712 -- | [Index of Default Variant Part or -1 for no default]
10714 -- Then for each Variant Part :
10716 -- | [VP Label]
10717 -- |
10718 -- | -- TC_STRUCT
10719 -- | | [Variant Part Name]
10720 -- | | [Variant Part Repository Id]
10721 -- | |
10722 -- | Then for each VP component:
10723 -- | | [VP component Typecode]
10724 -- | | [VP component Name]
10725 -- | | ...
10726 -- | --
10727 -- |
10728 -- | [VP Name]
10730 if Nkind (Declaration_Node (Typ)) = N_Subtype_Declaration then
10731 Return_Alias_TypeCode
10732 (Build_TypeCode_Call (Loc, Etype (Typ), Decls));
10734 else
10735 declare
10736 Disc : Entity_Id := Empty;
10737 Rdef : constant Node_Id :=
10738 Type_Definition (Declaration_Node (Typ));
10739 Dummy_Counter : Int := 0;
10741 begin
10742 -- Construct the discriminants typecodes
10744 if Has_Discriminants (Typ) then
10745 Disc := First_Discriminant (Typ);
10746 end if;
10748 while Present (Disc) loop
10749 Add_TypeCode_Parameter (
10750 Build_TypeCode_Call (Loc, Etype (Disc), Decls),
10751 Parameters);
10752 Get_Name_String (Chars (Disc));
10753 Add_String_Parameter (
10754 String_From_Name_Buffer,
10755 Parameters);
10756 Next_Discriminant (Disc);
10757 end loop;
10759 -- then the components typecodes
10761 TC_Append_Record_Traversal
10762 (Parameters, Component_List (Rdef),
10763 Empty, Dummy_Counter);
10764 Return_Constructed_TypeCode (RTE (RE_Tk_Struct));
10765 end;
10766 end if;
10768 elsif Is_Array_Type (Typ) then
10769 declare
10770 Ndim : constant Pos := Number_Dimensions (Typ);
10771 Inner_TypeCode : Node_Id;
10772 Constrained : constant Boolean := Is_Constrained (Typ);
10773 Indx : Node_Id := First_Index (Typ);
10775 begin
10776 Inner_TypeCode :=
10777 Build_TypeCode_Call (Loc, Component_Type (Typ), Decls);
10779 for J in 1 .. Ndim loop
10780 if Constrained then
10781 Inner_TypeCode := Make_Constructed_TypeCode
10782 (RTE (RE_Tk_Array), New_List (
10783 Build_To_Any_Call (Loc,
10784 OK_Convert_To (RTE (RE_Unsigned_32),
10785 Make_Attribute_Reference (Loc,
10786 Prefix => New_Occurrence_Of (Typ, Loc),
10787 Attribute_Name => Name_Length,
10788 Expressions => New_List (
10789 Make_Integer_Literal (Loc,
10790 Intval => Ndim - J + 1)))),
10791 Decls),
10792 Build_To_Any_Call (Loc, Inner_TypeCode, Decls)));
10794 else
10795 -- Unconstrained case: add low bound for each
10796 -- dimension.
10798 Add_TypeCode_Parameter
10799 (Build_TypeCode_Call (Loc, Etype (Indx), Decls),
10800 Parameters);
10801 Get_Name_String (New_External_Name ('L', J));
10802 Add_String_Parameter (
10803 String_From_Name_Buffer,
10804 Parameters);
10805 Next_Index (Indx);
10807 Inner_TypeCode := Make_Constructed_TypeCode
10808 (RTE (RE_Tk_Sequence), New_List (
10809 Build_To_Any_Call (Loc,
10810 OK_Convert_To (RTE (RE_Unsigned_32),
10811 Make_Integer_Literal (Loc, 0)),
10812 Decls),
10813 Build_To_Any_Call (Loc, Inner_TypeCode, Decls)));
10814 end if;
10815 end loop;
10817 if Constrained then
10818 Return_Alias_TypeCode (Inner_TypeCode);
10819 else
10820 Add_TypeCode_Parameter (Inner_TypeCode, Parameters);
10821 Start_String;
10822 Store_String_Char ('V');
10823 Add_String_Parameter (End_String, Parameters);
10824 Return_Constructed_TypeCode (RTE (RE_Tk_Struct));
10825 end if;
10826 end;
10828 else
10829 -- Default: type is represented as an opaque sequence of bytes
10831 Return_Alias_TypeCode
10832 (New_Occurrence_Of (RTE (RE_TC_Opaque), Loc));
10833 end if;
10835 Decl :=
10836 Make_Subprogram_Body (Loc,
10837 Specification => Spec,
10838 Declarations => Decls,
10839 Handled_Statement_Sequence =>
10840 Make_Handled_Sequence_Of_Statements (Loc,
10841 Statements => Stms));
10842 end Build_TypeCode_Function;
10844 ---------------------------------
10845 -- Find_Numeric_Representation --
10846 ---------------------------------
10848 function Find_Numeric_Representation
10849 (Typ : Entity_Id) return Entity_Id
10851 FST : constant Entity_Id := First_Subtype (Typ);
10852 P_Size : constant Uint := Esize (FST);
10854 begin
10855 -- Special case: for Stream_Element_Offset and Storage_Offset,
10856 -- always force transmission as a 64-bit value.
10858 if Is_RTE (FST, RE_Stream_Element_Offset)
10859 or else
10860 Is_RTE (FST, RE_Storage_Offset)
10861 then
10862 return RTE (RE_Unsigned_64);
10863 end if;
10865 if Is_Unsigned_Type (Typ) then
10866 if P_Size <= 8 then
10867 return RTE (RE_Unsigned_8);
10869 elsif P_Size <= 16 then
10870 return RTE (RE_Unsigned_16);
10872 elsif P_Size <= 32 then
10873 return RTE (RE_Unsigned_32);
10875 else
10876 return RTE (RE_Unsigned_64);
10877 end if;
10879 elsif Is_Integer_Type (Typ) then
10880 if P_Size <= 8 then
10881 return RTE (RE_Integer_8);
10883 elsif P_Size <= Standard_Short_Integer_Size then
10884 return RTE (RE_Integer_16);
10886 elsif P_Size <= Standard_Integer_Size then
10887 return RTE (RE_Integer_32);
10889 else
10890 return RTE (RE_Integer_64);
10891 end if;
10893 elsif Is_Floating_Point_Type (Typ) then
10894 if P_Size <= Standard_Short_Float_Size then
10895 return Standard_Short_Float;
10897 elsif P_Size <= Standard_Float_Size then
10898 return Standard_Float;
10900 elsif P_Size <= Standard_Long_Float_Size then
10901 return Standard_Long_Float;
10903 else
10904 return Standard_Long_Long_Float;
10905 end if;
10907 else
10908 raise Program_Error;
10909 end if;
10911 -- TBD: fixed point types???
10912 -- TBverified numeric types with a biased representation???
10914 end Find_Numeric_Representation;
10916 ---------------------------
10917 -- Append_Array_Traversal --
10918 ---------------------------
10920 procedure Append_Array_Traversal
10921 (Stmts : List_Id;
10922 Any : Entity_Id;
10923 Counter : Entity_Id := Empty;
10924 Depth : Pos := 1)
10926 Loc : constant Source_Ptr := Sloc (Subprogram);
10927 Typ : constant Entity_Id := Etype (Arry);
10928 Constrained : constant Boolean := Is_Constrained (Typ);
10929 Ndim : constant Pos := Number_Dimensions (Typ);
10931 Inner_Any, Inner_Counter : Entity_Id;
10933 Loop_Stm : Node_Id;
10934 Inner_Stmts : constant List_Id := New_List;
10936 begin
10937 if Depth > Ndim then
10939 -- Processing for one element of an array
10941 declare
10942 Element_Expr : constant Node_Id :=
10943 Make_Indexed_Component (Loc,
10944 New_Occurrence_Of (Arry, Loc),
10945 Indexes);
10946 begin
10947 Set_Etype (Element_Expr, Component_Type (Typ));
10948 Add_Process_Element (Stmts,
10949 Any => Any,
10950 Counter => Counter,
10951 Datum => Element_Expr);
10952 end;
10954 return;
10955 end if;
10957 Append_To (Indexes,
10958 Make_Identifier (Loc, New_External_Name ('L', Depth)));
10960 if not Constrained or else Depth > 1 then
10961 Inner_Any := Make_Defining_Identifier (Loc,
10962 New_External_Name ('A', Depth));
10963 Set_Etype (Inner_Any, RTE (RE_Any));
10964 else
10965 Inner_Any := Empty;
10966 end if;
10968 if Present (Counter) then
10969 Inner_Counter := Make_Defining_Identifier (Loc,
10970 New_External_Name ('J', Depth));
10971 else
10972 Inner_Counter := Empty;
10973 end if;
10975 declare
10976 Loop_Any : Node_Id := Inner_Any;
10978 begin
10979 -- For the first dimension of a constrained array, we add
10980 -- elements directly in the corresponding Any; there is no
10981 -- intervening inner Any.
10983 if No (Loop_Any) then
10984 Loop_Any := Any;
10985 end if;
10987 Append_Array_Traversal (Inner_Stmts,
10988 Any => Loop_Any,
10989 Counter => Inner_Counter,
10990 Depth => Depth + 1);
10991 end;
10993 Loop_Stm :=
10994 Make_Implicit_Loop_Statement (Subprogram,
10995 Iteration_Scheme =>
10996 Make_Iteration_Scheme (Loc,
10997 Loop_Parameter_Specification =>
10998 Make_Loop_Parameter_Specification (Loc,
10999 Defining_Identifier =>
11000 Make_Defining_Identifier (Loc,
11001 Chars => New_External_Name ('L', Depth)),
11003 Discrete_Subtype_Definition =>
11004 Make_Attribute_Reference (Loc,
11005 Prefix => New_Occurrence_Of (Arry, Loc),
11006 Attribute_Name => Name_Range,
11008 Expressions => New_List (
11009 Make_Integer_Literal (Loc, Depth))))),
11010 Statements => Inner_Stmts);
11012 declare
11013 Decls : constant List_Id := New_List;
11014 Dimen_Stmts : constant List_Id := New_List;
11015 Length_Node : Node_Id;
11017 Inner_Any_TypeCode : constant Entity_Id :=
11018 Make_Defining_Identifier (Loc,
11019 New_External_Name ('T', Depth));
11021 Inner_Any_TypeCode_Expr : Node_Id;
11023 begin
11024 if Depth = 1 then
11025 if Constrained then
11026 Inner_Any_TypeCode_Expr :=
11027 Make_Function_Call (Loc,
11028 Name => New_Occurrence_Of (RTE (RE_Get_TC), Loc),
11029 Parameter_Associations => New_List (
11030 New_Occurrence_Of (Any, Loc)));
11032 else
11033 Inner_Any_TypeCode_Expr :=
11034 Make_Function_Call (Loc,
11035 Name =>
11036 New_Occurrence_Of (RTE (RE_Any_Member_Type), Loc),
11037 Parameter_Associations => New_List (
11038 New_Occurrence_Of (Any, Loc),
11039 Make_Integer_Literal (Loc, Ndim)));
11040 end if;
11042 else
11043 Inner_Any_TypeCode_Expr :=
11044 Make_Function_Call (Loc,
11045 Name => New_Occurrence_Of (RTE (RE_Content_Type), Loc),
11046 Parameter_Associations => New_List (
11047 Make_Identifier (Loc,
11048 Chars => New_External_Name ('T', Depth - 1))));
11049 end if;
11051 Append_To (Decls,
11052 Make_Object_Declaration (Loc,
11053 Defining_Identifier => Inner_Any_TypeCode,
11054 Constant_Present => True,
11055 Object_Definition => New_Occurrence_Of (
11056 RTE (RE_TypeCode), Loc),
11057 Expression => Inner_Any_TypeCode_Expr));
11059 if Present (Inner_Any) then
11060 Append_To (Decls,
11061 Make_Object_Declaration (Loc,
11062 Defining_Identifier => Inner_Any,
11063 Object_Definition =>
11064 New_Occurrence_Of (RTE (RE_Any), Loc),
11065 Expression =>
11066 Make_Function_Call (Loc,
11067 Name =>
11068 New_Occurrence_Of (
11069 RTE (RE_Create_Any), Loc),
11070 Parameter_Associations => New_List (
11071 New_Occurrence_Of (Inner_Any_TypeCode, Loc)))));
11072 end if;
11074 if Present (Inner_Counter) then
11075 Append_To (Decls,
11076 Make_Object_Declaration (Loc,
11077 Defining_Identifier => Inner_Counter,
11078 Object_Definition =>
11079 New_Occurrence_Of (RTE (RE_Unsigned_32), Loc),
11080 Expression =>
11081 Make_Integer_Literal (Loc, 0)));
11082 end if;
11084 if not Constrained then
11085 Length_Node := Make_Attribute_Reference (Loc,
11086 Prefix => New_Occurrence_Of (Arry, Loc),
11087 Attribute_Name => Name_Length,
11088 Expressions =>
11089 New_List (Make_Integer_Literal (Loc, Depth)));
11090 Set_Etype (Length_Node, RTE (RE_Unsigned_32));
11092 Add_Process_Element (Dimen_Stmts,
11093 Datum => Length_Node,
11094 Any => Inner_Any,
11095 Counter => Inner_Counter);
11096 end if;
11098 -- Loop_Stm does appropriate processing for each element
11099 -- of Inner_Any.
11101 Append_To (Dimen_Stmts, Loop_Stm);
11103 -- Link outer and inner any
11105 if Present (Inner_Any) then
11106 Add_Process_Element (Dimen_Stmts,
11107 Any => Any,
11108 Counter => Counter,
11109 Datum => New_Occurrence_Of (Inner_Any, Loc));
11110 end if;
11112 Append_To (Stmts,
11113 Make_Block_Statement (Loc,
11114 Declarations =>
11115 Decls,
11116 Handled_Statement_Sequence =>
11117 Make_Handled_Sequence_Of_Statements (Loc,
11118 Statements => Dimen_Stmts)));
11119 end;
11120 end Append_Array_Traversal;
11122 -------------------------------
11123 -- Make_Helper_Function_Name --
11124 -------------------------------
11126 function Make_Helper_Function_Name
11127 (Loc : Source_Ptr;
11128 Typ : Entity_Id;
11129 Nam : Name_Id) return Entity_Id
11131 begin
11132 declare
11133 Serial : Nat := 0;
11134 -- For tagged types that aren't frozen yet, generate the helper
11135 -- under its canonical name so that it matches the primitive
11136 -- spec. For all other cases, we use a serialized name so that
11137 -- multiple generations of the same procedure do not clash.
11139 begin
11140 if Is_Tagged_Type (Typ) and then not Is_Frozen (Typ) then
11141 null;
11142 else
11143 Serial := Increment_Serial_Number;
11144 end if;
11146 -- Use prefixed underscore to avoid potential clash with user
11147 -- identifier (we use attribute names for Nam).
11149 return
11150 Make_Defining_Identifier (Loc,
11151 Chars =>
11152 New_External_Name
11153 (Related_Id => Nam,
11154 Suffix => ' ',
11155 Suffix_Index => Serial,
11156 Prefix => '_'));
11157 end;
11158 end Make_Helper_Function_Name;
11159 end Helpers;
11161 -----------------------------------
11162 -- Reserve_NamingContext_Methods --
11163 -----------------------------------
11165 procedure Reserve_NamingContext_Methods is
11166 Str_Resolve : constant String := "resolve";
11167 begin
11168 Name_Buffer (1 .. Str_Resolve'Length) := Str_Resolve;
11169 Name_Len := Str_Resolve'Length;
11170 Overload_Counter_Table.Set (Name_Find, 1);
11171 end Reserve_NamingContext_Methods;
11173 -----------------------
11174 -- RPC_Receiver_Decl --
11175 -----------------------
11177 function RPC_Receiver_Decl (RACW_Type : Entity_Id) return Node_Id is
11178 Loc : constant Source_Ptr := Sloc (RACW_Type);
11179 begin
11180 return
11181 Make_Object_Declaration (Loc,
11182 Defining_Identifier => Make_Temporary (Loc, 'R'),
11183 Aliased_Present => True,
11184 Object_Definition => New_Occurrence_Of (RTE (RE_Servant), Loc));
11185 end RPC_Receiver_Decl;
11187 end PolyORB_Support;
11189 -------------------------------
11190 -- RACW_Type_Is_Asynchronous --
11191 -------------------------------
11193 procedure RACW_Type_Is_Asynchronous (RACW_Type : Entity_Id) is
11194 Asynchronous_Flag : constant Entity_Id :=
11195 Asynchronous_Flags_Table.Get (RACW_Type);
11196 begin
11197 Replace (Expression (Parent (Asynchronous_Flag)),
11198 New_Occurrence_Of (Standard_True, Sloc (Asynchronous_Flag)));
11199 end RACW_Type_Is_Asynchronous;
11201 -------------------------
11202 -- RCI_Package_Locator --
11203 -------------------------
11205 function RCI_Package_Locator
11206 (Loc : Source_Ptr;
11207 Package_Spec : Node_Id) return Node_Id
11209 Inst : Node_Id;
11210 Pkg_Name : constant String_Id :=
11211 Fully_Qualified_Name_String
11212 (Defining_Entity (Package_Spec), Append_NUL => False);
11214 begin
11215 Inst :=
11216 Make_Package_Instantiation (Loc,
11217 Defining_Unit_Name => Make_Temporary (Loc, 'R'),
11219 Name =>
11220 New_Occurrence_Of (RTE (RE_RCI_Locator), Loc),
11222 Generic_Associations => New_List (
11223 Make_Generic_Association (Loc,
11224 Selector_Name =>
11225 Make_Identifier (Loc, Name_RCI_Name),
11226 Explicit_Generic_Actual_Parameter =>
11227 Make_String_Literal (Loc,
11228 Strval => Pkg_Name)),
11230 Make_Generic_Association (Loc,
11231 Selector_Name =>
11232 Make_Identifier (Loc, Name_Version),
11233 Explicit_Generic_Actual_Parameter =>
11234 Make_Attribute_Reference (Loc,
11235 Prefix =>
11236 New_Occurrence_Of (Defining_Entity (Package_Spec), Loc),
11237 Attribute_Name =>
11238 Name_Version))));
11240 RCI_Locator_Table.Set
11241 (Defining_Unit_Name (Package_Spec),
11242 Defining_Unit_Name (Inst));
11243 return Inst;
11244 end RCI_Package_Locator;
11246 -----------------------------------------------
11247 -- Remote_Types_Tagged_Full_View_Encountered --
11248 -----------------------------------------------
11250 procedure Remote_Types_Tagged_Full_View_Encountered
11251 (Full_View : Entity_Id)
11253 Stub_Elements : constant Stub_Structure :=
11254 Stubs_Table.Get (Full_View);
11256 begin
11257 -- For an RACW encountered before the freeze point of its designated
11258 -- type, the stub type is generated at the point of the RACW declaration
11259 -- but the primitives are generated only once the designated type is
11260 -- frozen. That freeze can occur in another scope, for example when the
11261 -- RACW is declared in a nested package. In that case we need to
11262 -- reestablish the stub type's scope prior to generating its primitive
11263 -- operations.
11265 if Stub_Elements /= Empty_Stub_Structure then
11266 declare
11267 Saved_Scope : constant Entity_Id := Current_Scope;
11268 Stubs_Scope : constant Entity_Id :=
11269 Scope (Stub_Elements.Stub_Type);
11271 begin
11272 if Current_Scope /= Stubs_Scope then
11273 Push_Scope (Stubs_Scope);
11274 end if;
11276 Add_RACW_Primitive_Declarations_And_Bodies
11277 (Full_View,
11278 Stub_Elements.RPC_Receiver_Decl,
11279 Stub_Elements.Body_Decls);
11281 if Current_Scope /= Saved_Scope then
11282 Pop_Scope;
11283 end if;
11284 end;
11285 end if;
11286 end Remote_Types_Tagged_Full_View_Encountered;
11288 -------------------
11289 -- Scope_Of_Spec --
11290 -------------------
11292 function Scope_Of_Spec (Spec : Node_Id) return Entity_Id is
11293 Unit_Name : Node_Id;
11295 begin
11296 Unit_Name := Defining_Unit_Name (Spec);
11297 while Nkind (Unit_Name) /= N_Defining_Identifier loop
11298 Unit_Name := Defining_Identifier (Unit_Name);
11299 end loop;
11301 return Unit_Name;
11302 end Scope_Of_Spec;
11304 ----------------------
11305 -- Set_Renaming_TSS --
11306 ----------------------
11308 procedure Set_Renaming_TSS
11309 (Typ : Entity_Id;
11310 Nam : Entity_Id;
11311 TSS_Nam : TSS_Name_Type)
11313 Loc : constant Source_Ptr := Sloc (Nam);
11314 Spec : constant Node_Id := Parent (Nam);
11316 TSS_Node : constant Node_Id :=
11317 Make_Subprogram_Renaming_Declaration (Loc,
11318 Specification =>
11319 Copy_Specification (Loc,
11320 Spec => Spec,
11321 New_Name => Make_TSS_Name (Typ, TSS_Nam)),
11322 Name => New_Occurrence_Of (Nam, Loc));
11324 Snam : constant Entity_Id :=
11325 Defining_Unit_Name (Specification (TSS_Node));
11327 begin
11328 if Nkind (Spec) = N_Function_Specification then
11329 Set_Ekind (Snam, E_Function);
11330 Set_Etype (Snam, Entity (Result_Definition (Spec)));
11331 else
11332 Set_Ekind (Snam, E_Procedure);
11333 Set_Etype (Snam, Standard_Void_Type);
11334 end if;
11336 Set_TSS (Typ, Snam);
11337 end Set_Renaming_TSS;
11339 ----------------------------------------------
11340 -- Specific_Add_Obj_RPC_Receiver_Completion --
11341 ----------------------------------------------
11343 procedure Specific_Add_Obj_RPC_Receiver_Completion
11344 (Loc : Source_Ptr;
11345 Decls : List_Id;
11346 RPC_Receiver : Entity_Id;
11347 Stub_Elements : Stub_Structure)
11349 begin
11350 case Get_PCS_Name is
11351 when Name_PolyORB_DSA =>
11352 PolyORB_Support.Add_Obj_RPC_Receiver_Completion
11353 (Loc, Decls, RPC_Receiver, Stub_Elements);
11355 when others =>
11356 GARLIC_Support.Add_Obj_RPC_Receiver_Completion
11357 (Loc, Decls, RPC_Receiver, Stub_Elements);
11358 end case;
11359 end Specific_Add_Obj_RPC_Receiver_Completion;
11361 --------------------------------
11362 -- Specific_Add_RACW_Features --
11363 --------------------------------
11365 procedure Specific_Add_RACW_Features
11366 (RACW_Type : Entity_Id;
11367 Desig : Entity_Id;
11368 Stub_Type : Entity_Id;
11369 Stub_Type_Access : Entity_Id;
11370 RPC_Receiver_Decl : Node_Id;
11371 Body_Decls : List_Id)
11373 begin
11374 case Get_PCS_Name is
11375 when Name_PolyORB_DSA =>
11376 PolyORB_Support.Add_RACW_Features
11377 (RACW_Type,
11378 Desig,
11379 Stub_Type,
11380 Stub_Type_Access,
11381 RPC_Receiver_Decl,
11382 Body_Decls);
11384 when others =>
11385 GARLIC_Support.Add_RACW_Features
11386 (RACW_Type,
11387 Stub_Type,
11388 Stub_Type_Access,
11389 RPC_Receiver_Decl,
11390 Body_Decls);
11391 end case;
11392 end Specific_Add_RACW_Features;
11394 --------------------------------
11395 -- Specific_Add_RAST_Features --
11396 --------------------------------
11398 procedure Specific_Add_RAST_Features
11399 (Vis_Decl : Node_Id;
11400 RAS_Type : Entity_Id)
11402 begin
11403 case Get_PCS_Name is
11404 when Name_PolyORB_DSA =>
11405 PolyORB_Support.Add_RAST_Features (Vis_Decl, RAS_Type);
11407 when others =>
11408 GARLIC_Support.Add_RAST_Features (Vis_Decl, RAS_Type);
11409 end case;
11410 end Specific_Add_RAST_Features;
11412 --------------------------------------------------
11413 -- Specific_Add_Receiving_Stubs_To_Declarations --
11414 --------------------------------------------------
11416 procedure Specific_Add_Receiving_Stubs_To_Declarations
11417 (Pkg_Spec : Node_Id;
11418 Decls : List_Id;
11419 Stmts : List_Id)
11421 begin
11422 case Get_PCS_Name is
11423 when Name_PolyORB_DSA =>
11424 PolyORB_Support.Add_Receiving_Stubs_To_Declarations
11425 (Pkg_Spec, Decls, Stmts);
11427 when others =>
11428 GARLIC_Support.Add_Receiving_Stubs_To_Declarations
11429 (Pkg_Spec, Decls, Stmts);
11430 end case;
11431 end Specific_Add_Receiving_Stubs_To_Declarations;
11433 ------------------------------------------
11434 -- Specific_Build_General_Calling_Stubs --
11435 ------------------------------------------
11437 procedure Specific_Build_General_Calling_Stubs
11438 (Decls : List_Id;
11439 Statements : List_Id;
11440 Target : RPC_Target;
11441 Subprogram_Id : Node_Id;
11442 Asynchronous : Node_Id := Empty;
11443 Is_Known_Asynchronous : Boolean := False;
11444 Is_Known_Non_Asynchronous : Boolean := False;
11445 Is_Function : Boolean;
11446 Spec : Node_Id;
11447 Stub_Type : Entity_Id := Empty;
11448 RACW_Type : Entity_Id := Empty;
11449 Nod : Node_Id)
11451 begin
11452 case Get_PCS_Name is
11453 when Name_PolyORB_DSA =>
11454 PolyORB_Support.Build_General_Calling_Stubs
11455 (Decls,
11456 Statements,
11457 Target.Object,
11458 Subprogram_Id,
11459 Asynchronous,
11460 Is_Known_Asynchronous,
11461 Is_Known_Non_Asynchronous,
11462 Is_Function,
11463 Spec,
11464 Stub_Type,
11465 RACW_Type,
11466 Nod);
11468 when others =>
11469 GARLIC_Support.Build_General_Calling_Stubs
11470 (Decls,
11471 Statements,
11472 Target.Partition,
11473 Target.RPC_Receiver,
11474 Subprogram_Id,
11475 Asynchronous,
11476 Is_Known_Asynchronous,
11477 Is_Known_Non_Asynchronous,
11478 Is_Function,
11479 Spec,
11480 Stub_Type,
11481 RACW_Type,
11482 Nod);
11483 end case;
11484 end Specific_Build_General_Calling_Stubs;
11486 --------------------------------------
11487 -- Specific_Build_RPC_Receiver_Body --
11488 --------------------------------------
11490 procedure Specific_Build_RPC_Receiver_Body
11491 (RPC_Receiver : Entity_Id;
11492 Request : out Entity_Id;
11493 Subp_Id : out Entity_Id;
11494 Subp_Index : out Entity_Id;
11495 Stmts : out List_Id;
11496 Decl : out Node_Id)
11498 begin
11499 case Get_PCS_Name is
11500 when Name_PolyORB_DSA =>
11501 PolyORB_Support.Build_RPC_Receiver_Body
11502 (RPC_Receiver,
11503 Request,
11504 Subp_Id,
11505 Subp_Index,
11506 Stmts,
11507 Decl);
11509 when others =>
11510 GARLIC_Support.Build_RPC_Receiver_Body
11511 (RPC_Receiver,
11512 Request,
11513 Subp_Id,
11514 Subp_Index,
11515 Stmts,
11516 Decl);
11517 end case;
11518 end Specific_Build_RPC_Receiver_Body;
11520 --------------------------------
11521 -- Specific_Build_Stub_Target --
11522 --------------------------------
11524 function Specific_Build_Stub_Target
11525 (Loc : Source_Ptr;
11526 Decls : List_Id;
11527 RCI_Locator : Entity_Id;
11528 Controlling_Parameter : Entity_Id) return RPC_Target
11530 begin
11531 case Get_PCS_Name is
11532 when Name_PolyORB_DSA =>
11533 return
11534 PolyORB_Support.Build_Stub_Target
11535 (Loc, Decls, RCI_Locator, Controlling_Parameter);
11537 when others =>
11538 return
11539 GARLIC_Support.Build_Stub_Target
11540 (Loc, Decls, RCI_Locator, Controlling_Parameter);
11541 end case;
11542 end Specific_Build_Stub_Target;
11544 --------------------------------
11545 -- Specific_RPC_Receiver_Decl --
11546 --------------------------------
11548 function Specific_RPC_Receiver_Decl
11549 (RACW_Type : Entity_Id) return Node_Id
11551 begin
11552 case Get_PCS_Name is
11553 when Name_PolyORB_DSA =>
11554 return PolyORB_Support.RPC_Receiver_Decl (RACW_Type);
11556 when others =>
11557 return GARLIC_Support.RPC_Receiver_Decl (RACW_Type);
11558 end case;
11559 end Specific_RPC_Receiver_Decl;
11561 -----------------------------------------------
11562 -- Specific_Build_Subprogram_Receiving_Stubs --
11563 -----------------------------------------------
11565 function Specific_Build_Subprogram_Receiving_Stubs
11566 (Vis_Decl : Node_Id;
11567 Asynchronous : Boolean;
11568 Dynamically_Asynchronous : Boolean := False;
11569 Stub_Type : Entity_Id := Empty;
11570 RACW_Type : Entity_Id := Empty;
11571 Parent_Primitive : Entity_Id := Empty) return Node_Id
11573 begin
11574 case Get_PCS_Name is
11575 when Name_PolyORB_DSA =>
11576 return
11577 PolyORB_Support.Build_Subprogram_Receiving_Stubs
11578 (Vis_Decl,
11579 Asynchronous,
11580 Dynamically_Asynchronous,
11581 Stub_Type,
11582 RACW_Type,
11583 Parent_Primitive);
11585 when others =>
11586 return
11587 GARLIC_Support.Build_Subprogram_Receiving_Stubs
11588 (Vis_Decl,
11589 Asynchronous,
11590 Dynamically_Asynchronous,
11591 Stub_Type,
11592 RACW_Type,
11593 Parent_Primitive);
11594 end case;
11595 end Specific_Build_Subprogram_Receiving_Stubs;
11597 -------------------------------
11598 -- Transmit_As_Unconstrained --
11599 -------------------------------
11601 function Transmit_As_Unconstrained (Typ : Entity_Id) return Boolean is
11602 begin
11603 return
11604 not (Is_Elementary_Type (Typ) or else Is_Constrained (Typ))
11605 or else (Is_Access_Type (Typ) and then Can_Never_Be_Null (Typ));
11606 end Transmit_As_Unconstrained;
11608 --------------------------
11609 -- Underlying_RACW_Type --
11610 --------------------------
11612 function Underlying_RACW_Type (RAS_Typ : Entity_Id) return Entity_Id is
11613 Record_Type : Entity_Id;
11615 begin
11616 if Ekind (RAS_Typ) = E_Record_Type then
11617 Record_Type := RAS_Typ;
11618 else
11619 pragma Assert (Present (Equivalent_Type (RAS_Typ)));
11620 Record_Type := Equivalent_Type (RAS_Typ);
11621 end if;
11623 return
11624 Etype (Subtype_Indication
11625 (Component_Definition
11626 (First (Component_Items
11627 (Component_List
11628 (Type_Definition
11629 (Declaration_Node (Record_Type))))))));
11630 end Underlying_RACW_Type;
11632 end Exp_Dist;