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1 281 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT COMPILER COMPONENTS                         --
4
--                                                                          --
5
--                                  L I B                                   --
6
--                                                                          --
7
--                                 S p e c                                  --
8
--                                                                          --
9
--          Copyright (C) 1992-2009, 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.                                     --
17
--                                                                          --
18
-- As a special exception under Section 7 of GPL version 3, you are granted --
19
-- additional permissions described in the GCC Runtime Library Exception,   --
20
-- version 3.1, as published by the Free Software Foundation.               --
21
--                                                                          --
22
-- You should have received a copy of the GNU General Public License and    --
23
-- a copy of the GCC Runtime Library Exception along with this program;     --
24
-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
25
-- <http://www.gnu.org/licenses/>.                                          --
26
--                                                                          --
27
-- GNAT was originally developed  by the GNAT team at  New York University. --
28
-- Extensive contributions were provided by Ada Core Technologies Inc.      --
29
--                                                                          --
30
------------------------------------------------------------------------------
31
 
32
--  This package contains routines for accessing and outputting the library
33
--  information. It contains the routine to load subsidiary units.
34
 
35
with Alloc;
36
with Namet; use Namet;
37
with Table;
38
with Types; use Types;
39
 
40
package Lib is
41
 
42
   --------------------------------------------
43
   -- General Approach to Library Management --
44
   --------------------------------------------
45
 
46
   --  As described in GNote #1, when a unit is compiled, all its subsidiary
47
   --  units are recompiled, including the following:
48
 
49
   --    (a) Corresponding spec for a body
50
   --    (b) Parent spec of a child library spec
51
   --    (d) With'ed specs
52
   --    (d) Parent body of a subunit
53
   --    (e) Subunits corresponding to any specified stubs
54
   --    (f) Bodies of inlined subprograms that are called
55
   --    (g) Bodies of generic subprograms or packages that are instantiated
56
   --    (h) Bodies of packages containing either of the above two items
57
   --    (i) Specs and bodies of runtime units
58
   --    (j) Parent specs for with'ed child library units
59
 
60
   --  If a unit is being compiled only for syntax checking, then no subsidiary
61
   --  units are loaded, the syntax check applies only to the main unit,
62
   --  i.e. the one contained in the source submitted to the library.
63
 
64
   --  If a unit is being compiled for syntax and semantic checking, then only
65
   --  cases (a)-(d) loads are performed, since the full semantic checking can
66
   --  be carried out without needing (e)-(i) loads. In this case no object
67
   --  file, or library information file, is generated, so the missing units
68
   --  do not affect the results.
69
 
70
   --  Specifications of library subprograms, subunits, and generic specs
71
   --  and bodies, can only be compiled in syntax/semantic checking mode,
72
   --  since no code is ever generated directly for these units. In the case
73
   --  of subunits, only the compilation of the ultimate parent unit generates
74
   --  actual code. If a subunit is submitted to the compiler in syntax/
75
   --  semantic checking mode, the parent (or parents in the nested case) are
76
   --  semantically checked only up to the point of the corresponding stub.
77
 
78
   --  If code is being generated, then all the above units are required,
79
   --  although the need for bodies of inlined procedures can be suppressed
80
   --  by the use of a switch that sets the mode to ignore pragma Inline
81
   --  statements.
82
 
83
   --  The two main sections of the front end, Par and Sem, are recursive.
84
   --  Compilation proceeds unit by unit making recursive calls as necessary.
85
   --  The process is controlled from the GNAT main program, which makes calls
86
   --  to Par and Sem sequence for the main unit.
87
 
88
   --  Par parses the given unit, and then, after the parse is complete, uses
89
   --  the Par.Load subprogram to load all its subsidiary units in categories
90
   --  (a)-(d) above, installing pointers to the loaded units in the parse
91
   --  tree, as described in a later section of this spec. If any of these
92
   --  required units is missing, a fatal error is signalled, so that no
93
   --  attempt is made to run Sem in such cases, since it is assumed that
94
   --  too many cascaded errors would result, and the confusion would not
95
   --  be helpful.
96
 
97
   --  Following the call to Par on the main unit, the entire tree of required
98
   --  units is thus loaded, and Sem is called on the main unit. The parameter
99
   --  passed to Sem is the unit to be analyzed. The visibility table, which
100
   --  is a single global structure, starts out containing only the entries
101
   --  for the visible entities in Standard. Every call to Sem establishes a
102
   --  new scope stack table, pushing an entry for Standard on entry to provide
103
   --  the proper initial scope environment.
104
 
105
   --  Sem first proceeds to perform semantic analysis on the currently loaded
106
   --  units as follows:
107
 
108
   --    In the case of a body (case (a) above), Sem analyzes the corresponding
109
   --    spec, using a recursive call to Sem. As is always expected to be the
110
   --    case with calls to Sem, any entities installed in the visibility table
111
   --    are removed on exit from Sem, so that these entities have to be
112
   --    reinstalled on return to continue the analysis of the body which of
113
   --    course needs visibility of these entities.
114
   --
115
   --    In the case of the parent of a child spec (case (b) above), a similar
116
   --    call is made to Sem to analyze the parent. Again, on return, the
117
   --    entities from the analyzed parent spec have to be installed in the
118
   --    visibility table of the caller (the child unit), which must have
119
   --    visibility to the entities in its parent spec.
120
 
121
   --    For with'ed specs (case (c) above), a recursive call to Sem is made
122
   --    to analyze each spec in turn. After all the spec's have been analyzed,
123
   --    but not till that point, the entities from all the with'ed units are
124
   --    reinstalled in the visibility table so that the caller can proceed
125
   --    with the analysis of the unit doing the with's with the necessary
126
   --    entities made either potentially use visible or visible by selection
127
   --    as needed.
128
 
129
   --    Case (d) arises when Sem is passed a subunit to analyze. This means
130
   --    that the main unit is a subunit, and the unit passed to Sem is either
131
   --    the main unit, or one of its ancestors that is still a subunit. Since
132
   --    analysis must start at the top of the tree, Sem essentially cancels
133
   --    the current call by immediately making a call to analyze the parent
134
   --    (when this call is finished it immediately returns, so logically this
135
   --    call is like a goto). The subunit will then be analyzed at the proper
136
   --    time as described for the stub case. Note that we also turn off the
137
   --    indication that code should be generated in this case, since the only
138
   --    time we generate code for subunits is when compiling the main parent.
139
 
140
   --    Case (e), subunits corresponding to stubs, are handled as the stubs
141
   --    are encountered. There are three sub-cases:
142
 
143
   --      If the subunit has already been loaded, then this means that the
144
   --      main unit was a subunit, and we are back on our way down to it
145
   --      after following the initial processing described for case (d).
146
   --      In this case we analyze this particular subunit, as described
147
   --      for the case where we are generating code, but when we get back
148
   --      we are all done, since the rest of the parent is irrelevant. To
149
   --      get out of the parent, we raise the exception Subunit_Found, which
150
   --      is handled at the outer level of Sem.
151
 
152
   --      The cases where the subunit has not already been loaded correspond
153
   --      to cases where the main unit was a parent. In this case the action
154
   --      depends on whether or not we are generating code. If we are not
155
   --      generating code, then this is the case where we can simply ignore
156
   --      the subunit, since in checking mode we don't even want to insist
157
   --      that the subunit exist, much less waste time checking it.
158
 
159
   --      If we are generating code, then we need to load and analyze
160
   --      all subunits. This is achieved with a call to Lib.Load to load
161
   --      and parse the unit, followed by processing that installs the
162
   --      context clause of the subunit, analyzes the subunit, and then
163
   --      removes the context clause (from the visibility chains of the
164
   --      parent). Note that we do *not* do a recursive call to Sem in
165
   --      this case, precisely because we need to do the analysis of the
166
   --      subunit with the current visibility table and scope stack.
167
 
168
   --    Case (f) applies only to subprograms for which a pragma Inline is
169
   --    given, providing that the compiler is operating in the mode where
170
   --    pragma Inline's are activated. When the expander encounters a call
171
   --    to such a subprogram, it loads the body of the subprogram if it has
172
   --    not already been loaded, and calls Sem to process it.
173
 
174
   --    Case (g) is similar to case (f), except that the body of a generic
175
   --    is unconditionally required, regardless of compiler mode settings.
176
   --    As in the subprogram case, when the expander encounters a generic
177
   --    instantiation, it loads the generic body of the subprogram if it
178
   --    has not already been loaded, and calls Sem to process it.
179
 
180
   --    Case (h) arises when a package contains either an inlined subprogram
181
   --    which is called, or a generic which is instantiated. In this case the
182
   --    body of the package must be loaded and analyzed with a call to Sem.
183
 
184
   --    Case (i) is handled by adding implicit with clauses to the context
185
   --    clauses of all units that potentially reference the relevant runtime
186
   --    entities. Note that since we have the full set of units available,
187
   --    the parser can always determine the set of runtime units that is
188
   --    needed. These with clauses do not have associated use clauses, so
189
   --    all references to the entities must be by selection. Once the with
190
   --    clauses have been added, subsequent processing is as for normal
191
   --    with clauses.
192
 
193
   --    Case (j) is also handled by adding appropriate implicit with clauses
194
   --    to any unit that withs a child unit. Again there is no use clause,
195
   --    and subsequent processing proceeds as for an explicit with clause.
196
 
197
   --  Sem thus completes the loading of all required units, except those
198
   --  required for inline subprogram bodies or inlined generics. If any
199
   --  of these load attempts fails, then the expander will not be called,
200
   --  even if code was to be generated. If the load attempts all succeed
201
   --  then the expander is called, though the attempt to generate code may
202
   --  still fail if an error occurs during a load attempt for an inlined
203
   --  body or a generic body.
204
 
205
   -------------------------------------------
206
   -- Special Handling of Subprogram Bodies --
207
   -------------------------------------------
208
 
209
   --  A subprogram body (in an adb file) may stand for both a spec and a body.
210
   --  A simple model (and one that was adopted through version 2.07) is simply
211
   --  to assume that such an adb file acts as its own spec if no ads file is
212
   --  is present.
213
 
214
   --  However, this is not correct. RM 10.1.4(4) requires that such a body
215
   --  act as a spec unless a subprogram declaration of the same name is
216
   --  already present. The correct interpretation of this in GNAT library
217
   --  terms is to ignore an existing ads file of the same name unless this
218
   --  ads file contains a subprogram declaration with the same name.
219
 
220
   --  If there is an ads file with a unit other than a subprogram declaration
221
   --  with the same name, then a fatal message is output, noting that this
222
   --  irrelevant file must be deleted before the body can be compiled. See
223
   --  ACVC test CA1020D to see how this processing is required.
224
 
225
   -----------------
226
   -- Global Data --
227
   -----------------
228
 
229
   Current_Sem_Unit : Unit_Number_Type := Main_Unit;
230
   --  Unit number of unit currently being analyzed/expanded. This is set when
231
   --  ever a new unit is entered, saving and restoring the old value, so that
232
   --  it always reflects the unit currently being analyzed. The initial value
233
   --  of Main_Unit ensures that a proper value is set initially, and in
234
   --  particular for analysis of configuration pragmas in gnat.adc.
235
 
236
   Main_Unit_Entity : Entity_Id;
237
   --  Entity of main unit, same as Cunit_Entity (Main_Unit) except where
238
   --  Main_Unit is a body with a separate spec, in which case it is the
239
   --  entity for the spec.
240
 
241
   -----------------
242
   -- Units Table --
243
   -----------------
244
 
245
   --  The units table has an entry for each unit (source file) read in by the
246
   --  current compilation. The table is indexed by the unit number value,
247
   --  The first entry in the table, subscript Main_Unit, is for the main file.
248
   --  Each entry in this units table contains the following data.
249
 
250
   --    Unit_File_Name
251
   --      The name of the source file containing the unit. Set when the entry
252
   --      is created by a call to Lib.Load, and then cannot be changed.
253
 
254
   --    Source_Index
255
   --      The index in the source file table of the corresponding source file.
256
   --      Set when the entry is created by a call to Lib.Load and then cannot
257
   --      be changed.
258
 
259
   --    Munit_Index
260
   --      The index of the unit within the file for multiple unit per file
261
   --      mode. Set to zero in normal single unit per file mode.
262
 
263
   --    Error_Location
264
   --      This is copied from the Sloc field of the Enode argument passed
265
   --      to Load_Unit. It refers to the enclosing construct which caused
266
   --      this unit to be loaded, e.g. most typically the with clause that
267
   --      referenced the unit, and is used for error handling in Par.Load.
268
 
269
   --    Expected_Unit
270
   --      This is the expected unit name for a file other than the main unit,
271
   --      since these are cases where we load the unit using Lib.Load and we
272
   --      know the unit that is expected. It must be the same as Unit_Name
273
   --      if it is set (see test in Par.Load). Expected_Unit is set to
274
   --      No_Name for the main unit.
275
 
276
   --    Unit_Name
277
   --      The name of the unit. Initialized to No_Name by Lib.Load, and then
278
   --      set by the parser when the unit is parsed to the unit name actually
279
   --      found in the file (which should, in the absence of errors) be the
280
   --      same name as Expected_Unit.
281
 
282
   --    Cunit
283
   --      Pointer to the N_Compilation_Unit node. Initially set to Empty by
284
   --      Lib.Load, and then reset to the required node by the parser when
285
   --      the unit is parsed.
286
 
287
   --    Cunit_Entity
288
   --      Pointer to the entity node for the compilation unit. Initially set
289
   --      to Empty by Lib.Load, and then reset to the required entity by the
290
   --      parser when the unit is parsed.
291
 
292
   --    Dependency_Num
293
   --      This is the number of the unit within the generated dependency
294
   --      lines (D lines in the ALI file) which are sorted into alphabetical
295
   --      order. The number is ones origin, so a value of 2 refers to the
296
   --      second generated D line. The Dependency_Number values are set
297
   --      as the D lines are generated, and are used to generate proper
298
   --      unit references in the generated xref information and SCO output.
299
 
300
   --    Dynamic_Elab
301
   --      A flag indicating if this unit was compiled with dynamic elaboration
302
   --      checks specified (as the result of using the -gnatE compilation
303
   --      option or a pragma Elaboration_Checks (Dynamic).
304
 
305
   --    Fatal_Error
306
   --      A flag that is initialized to False, and gets set to True if a fatal
307
   --      error occurs during the processing of a unit. A fatal error is one
308
   --      defined as serious enough to stop the next phase of the compiler
309
   --      from running (i.e. fatal error during parsing stops semantics,
310
   --      fatal error during semantics stops code generation). Note that
311
   --      currently, errors of any kind cause Fatal_Error to be set, but
312
   --      eventually perhaps only errors labeled as Fatal_Errors should be
313
   --      this severe if we decide to try Sem on sources with minor errors.
314
 
315
   --    Generate_Code
316
   --      This flag is set True for all units in the current file for which
317
   --      code is to be generated. This includes the unit explicitly compiled,
318
   --      together with its specification, and any subunits.
319
 
320
   --    Has_RACW
321
   --      A Boolean flag, initially set to False when a unit entry is created,
322
   --      and set to True if the unit defines a remote access to class wide
323
   --      (RACW) object. This is used for controlling generation of the RA
324
   --      attribute in the ali file.
325
 
326
   --    Is_Compiler_Unit
327
   --      A Boolean flag, initially set False by default, set to True if a
328
   --      pragma Compiler_Unit appears in the unit.
329
 
330
   --    Ident_String
331
   --      N_String_Literal node from a valid pragma Ident that applies to
332
   --      this unit. If no Ident pragma applies to the unit, then Empty.
333
 
334
   --    Loading
335
   --      A flag that is used to catch circular WITH dependencies. It is set
336
   --      True when an entry is initially created in the file table, and set
337
   --      False when the load is completed, or ends with an error.
338
 
339
   --    Main_Priority
340
   --      This field is used to indicate the priority of a possible main
341
   --      program, as set by a pragma Priority. A value of -1 indicates
342
   --      that the default priority is to be used (and is also used for
343
   --      entries that do not correspond to possible main programs).
344
 
345
   --    OA_Setting
346
   --      This is a character field containing L if Optimize_Alignment mode
347
   --      was set locally, and O/T/S for Off/Time/Space default if not.
348
 
349
   --    Serial_Number
350
   --      This field holds a serial number used by New_Internal_Name to
351
   --      generate unique temporary numbers on a unit by unit basis. The
352
   --      only access to this field is via the Increment_Serial_Number
353
   --      routine which increments the current value and returns it. This
354
   --      serial number is separate for each unit.
355
 
356
   --    Version
357
   --      This field holds the version of the unit, which is computed as
358
   --      the exclusive or of the checksums of this unit, and all its
359
   --      semantically dependent units. Access to the version number field
360
   --      is not direct, but is done through the routines described below.
361
   --      When a unit table entry is created, this field is initialized to
362
   --      the checksum of the corresponding source file. Version_Update is
363
   --      then called to reflect the contributions of any unit on which this
364
   --      unit is semantically dependent.
365
 
366
   --  The units table is reset to empty at the start of the compilation of
367
   --  each main unit by Lib.Initialize. Entries are then added by calls to
368
   --  the Lib.Load procedure. The following subprograms are used to access
369
   --  and modify entries in the Units table. Individual entries are accessed
370
   --  using a unit number value which ranges from Main_Unit (the first entry,
371
   --  which is always for the current main unit) to Last_Unit.
372
 
373
   Default_Main_Priority : constant Int := -1;
374
   --  Value used in Main_Priority field to indicate default main priority
375
 
376
   function Cunit            (U : Unit_Number_Type) return Node_Id;
377
   function Cunit_Entity     (U : Unit_Number_Type) return Entity_Id;
378
   function Dependency_Num   (U : Unit_Number_Type) return Nat;
379
   function Dynamic_Elab     (U : Unit_Number_Type) return Boolean;
380
   function Error_Location   (U : Unit_Number_Type) return Source_Ptr;
381
   function Expected_Unit    (U : Unit_Number_Type) return Unit_Name_Type;
382
   function Fatal_Error      (U : Unit_Number_Type) return Boolean;
383
   function Generate_Code    (U : Unit_Number_Type) return Boolean;
384
   function Ident_String     (U : Unit_Number_Type) return Node_Id;
385
   function Has_RACW         (U : Unit_Number_Type) return Boolean;
386
   function Is_Compiler_Unit (U : Unit_Number_Type) return Boolean;
387
   function Loading          (U : Unit_Number_Type) return Boolean;
388
   function Main_Priority    (U : Unit_Number_Type) return Int;
389
   function Munit_Index      (U : Unit_Number_Type) return Nat;
390
   function OA_Setting       (U : Unit_Number_Type) return Character;
391
   function Source_Index     (U : Unit_Number_Type) return Source_File_Index;
392
   function Unit_File_Name   (U : Unit_Number_Type) return File_Name_Type;
393
   function Unit_Name        (U : Unit_Number_Type) return Unit_Name_Type;
394
   --  Get value of named field from given units table entry
395
 
396
   procedure Set_Cunit            (U : Unit_Number_Type; N : Node_Id);
397
   procedure Set_Cunit_Entity     (U : Unit_Number_Type; E : Entity_Id);
398
   procedure Set_Dynamic_Elab     (U : Unit_Number_Type; B : Boolean := True);
399
   procedure Set_Error_Location   (U : Unit_Number_Type; W : Source_Ptr);
400
   procedure Set_Fatal_Error      (U : Unit_Number_Type; B : Boolean := True);
401
   procedure Set_Generate_Code    (U : Unit_Number_Type; B : Boolean := True);
402
   procedure Set_Has_RACW         (U : Unit_Number_Type; B : Boolean := True);
403
   procedure Set_Is_Compiler_Unit (U : Unit_Number_Type; B : Boolean := True);
404
   procedure Set_Ident_String     (U : Unit_Number_Type; N : Node_Id);
405
   procedure Set_Loading          (U : Unit_Number_Type; B : Boolean := True);
406
   procedure Set_Main_Priority    (U : Unit_Number_Type; P : Int);
407
   procedure Set_OA_Setting       (U : Unit_Number_Type; C : Character);
408
   procedure Set_Unit_Name        (U : Unit_Number_Type; N : Unit_Name_Type);
409
   --  Set value of named field for given units table entry. Note that we
410
   --  do not have an entry for each possible field, since some of the fields
411
   --  can only be set by specialized interfaces (defined below).
412
 
413
   function Version_Get (U : Unit_Number_Type) return Word_Hex_String;
414
   --  Returns the version as a string with 8 hex digits (upper case letters)
415
 
416
   function Last_Unit return Unit_Number_Type;
417
   --  Unit number of last allocated unit
418
 
419
   function Num_Units return Nat;
420
   --  Number of units currently in unit table
421
 
422
   procedure Remove_Unit (U : Unit_Number_Type);
423
   --  Remove unit U from unit table. Currently this is effective only
424
   --  if U is the last unit currently stored in the unit table.
425
 
426
   function Entity_Is_In_Main_Unit (E : Entity_Id) return Boolean;
427
   --  Returns True if the entity E is declared in the main unit, or, in
428
   --  its corresponding spec, or one of its subunits. Entities declared
429
   --  within generic instantiations return True if the instantiation is
430
   --  itself "in the main unit" by this definition. Otherwise False.
431
 
432
   function Get_Source_Unit (N : Node_Or_Entity_Id) return Unit_Number_Type;
433
   pragma Inline (Get_Source_Unit);
434
   function Get_Source_Unit (S : Source_Ptr) return Unit_Number_Type;
435
   --  Return unit number of file identified by given source pointer value.
436
   --  This call must always succeed, since any valid source pointer value
437
   --  belongs to some previously loaded module. If the given source pointer
438
   --  value is within an instantiation, this function returns the unit number
439
   --  of the template, i.e. the unit containing the source code corresponding
440
   --  to the given Source_Ptr value. The version taking a Node_Id argument, N,
441
   --  simply applies the function to Sloc (N).
442
 
443
   function Get_Code_Unit (N : Node_Or_Entity_Id) return Unit_Number_Type;
444
   pragma Inline (Get_Code_Unit);
445
   function Get_Code_Unit (S : Source_Ptr) return Unit_Number_Type;
446
   --  This is like Get_Source_Unit, except that in the instantiation case,
447
   --  it uses the location of the top level instantiation, rather than the
448
   --  template, so it returns the unit number containing the code that
449
   --  corresponds to the node N, or the source location S.
450
 
451
   function In_Same_Source_Unit (N1, N2 : Node_Or_Entity_Id) return Boolean;
452
   pragma Inline (In_Same_Source_Unit);
453
   --  Determines if the two nodes or entities N1 and N2 are in the same
454
   --  source unit, the criterion being that Get_Source_Unit yields the
455
   --  same value for each argument.
456
 
457
   function In_Same_Code_Unit (N1, N2 : Node_Or_Entity_Id) return Boolean;
458
   pragma Inline (In_Same_Code_Unit);
459
   --  Determines if the two nodes or entities N1 and N2 are in the same
460
   --  code unit, the criterion being that Get_Code_Unit yields the same
461
   --  value for each argument.
462
 
463
   function In_Same_Extended_Unit (N1, N2 : Node_Or_Entity_Id) return Boolean;
464
   pragma Inline (In_Same_Extended_Unit);
465
   --  Determines if two nodes or entities N1 and N2 are in the same
466
   --  extended unit, where an extended unit is defined as a unit and all
467
   --  its subunits (considered recursively, i.e. subunits of subunits are
468
   --  included). Returns true if S1 and S2 are in the same extended unit
469
   --  and False otherwise.
470
 
471
   function In_Same_Extended_Unit (S1, S2 : Source_Ptr) return Boolean;
472
   pragma Inline (In_Same_Extended_Unit);
473
   --  Determines if the two source locations S1 and S2 are in the same
474
   --  extended unit, where an extended unit is defined as a unit and all
475
   --  its subunits (considered recursively, i.e. subunits of subunits are
476
   --  included). Returns true if S1 and S2 are in the same extended unit
477
   --  and False otherwise.
478
 
479
   function In_Extended_Main_Code_Unit
480
     (N : Node_Or_Entity_Id) return Boolean;
481
   --  Return True if the node is in the generated code of the extended main
482
   --  unit, defined as the main unit, its specification (if any), and all
483
   --  its subunits (considered recursively). Units for which this enquiry
484
   --  returns True are those for which code will be generated. Nodes from
485
   --  instantiations are included in the extended main unit for this call.
486
   --  If the main unit is itself a subunit, then the extended main unit
487
   --  includes its parent unit, and the parent unit spec if it is separate.
488
 
489
   function In_Extended_Main_Code_Unit (Loc : Source_Ptr) return Boolean;
490
   --  Same function as above, but argument is a source pointer rather
491
   --  than a node.
492
 
493
   function In_Extended_Main_Source_Unit
494
     (N : Node_Or_Entity_Id) return Boolean;
495
   --  Return True if the node is in the source text of the extended main
496
   --  unit, defined as the main unit, its specification (if any), and all
497
   --  its subunits (considered recursively). Units for which this enquiry
498
   --  returns True are those for which code will be generated. This differs
499
   --  from In_Extended_Main_Code_Unit only in that instantiations are not
500
   --  included for the purposes of this call. If the main unit is itself
501
   --  a subunit, then the extended main unit includes its parent unit,
502
   --  and the parent unit spec if it is separate.
503
 
504
   function In_Extended_Main_Source_Unit (Loc : Source_Ptr) return Boolean;
505
   --  Same function as above, but argument is a source pointer
506
 
507
   function In_Predefined_Unit (N : Node_Or_Entity_Id) return Boolean;
508
   --  Returns True if the given node or entity appears within the source text
509
   --  of a predefined unit (i.e. within Ada, Interfaces, System or within one
510
   --  of the descendent packages of one of these three packages).
511
 
512
   function In_Predefined_Unit (S : Source_Ptr) return Boolean;
513
   --  Same function as above but argument is a source pointer
514
 
515
   function Earlier_In_Extended_Unit (S1, S2 : Source_Ptr) return Boolean;
516
   --  Given two Sloc values for which In_Same_Extended_Unit is true, determine
517
   --  if S1 appears before S2. Returns True if S1 appears before S2, and False
518
   --  otherwise. The result is undefined if S1 and S2 are not in the same
519
   --  extended unit. Note: this routine will not give reliable results if
520
   --  called after Sprint has been called with -gnatD set.
521
 
522
   function Compilation_Switches_Last return Nat;
523
   --  Return the count of stored compilation switches
524
 
525
   function Get_Compilation_Switch (N : Pos) return String_Ptr;
526
   --  Return the Nth stored compilation switch, or null if less than N
527
   --  switches have been stored. Used by ASIS and back ends written in Ada.
528
 
529
   function Get_Cunit_Unit_Number (N : Node_Id) return Unit_Number_Type;
530
   --  Return unit number of the unit whose N_Compilation_Unit node is the
531
   --  one passed as an argument. This must always succeed since the node
532
   --  could not have been built without making a unit table entry.
533
 
534
   function Get_Cunit_Entity_Unit_Number
535
     (E : Entity_Id) return Unit_Number_Type;
536
   --  Return unit number of the unit whose compilation unit spec entity is
537
   --  the one passed as an argument. This must always succeed since the
538
   --  entity could not have been built without making a unit table entry.
539
 
540
   function Increment_Serial_Number return Nat;
541
   --  Increment Serial_Number field for current unit, and return the
542
   --  incremented value.
543
 
544
   procedure Synchronize_Serial_Number;
545
   --  This function increments the Serial_Number field for the current unit
546
   --  but does not return the incremented value. This is used when there
547
   --  is a situation where one path of control increments a serial number
548
   --  (using Increment_Serial_Number), and the other path does not and it is
549
   --  important to keep the serial numbers synchronized in the two cases (e.g.
550
   --  when the references in a package and a client must be kept consistent).
551
 
552
   procedure Replace_Linker_Option_String
553
     (S            : String_Id;
554
      Match_String : String);
555
   --  Replace an existing Linker_Option if the prefix Match_String matches,
556
   --  otherwise call Store_Linker_Option_String.
557
 
558
   procedure Store_Compilation_Switch (Switch : String);
559
   --  Called to register a compilation switch, either front-end or back-end,
560
   --  which may influence the generated output file(s). Switch is the text of
561
   --  the switch to store (except that -fRTS gets changed back to --RTS).
562
 
563
   procedure Enable_Switch_Storing;
564
   --  Enable registration of switches by Store_Compilation_Switch. Used to
565
   --  avoid registering switches added automatically by the gcc driver at the
566
   --  beginning of the command line.
567
 
568
   procedure Disable_Switch_Storing;
569
   --  Disable registration of switches by Store_Compilation_Switch. Used to
570
   --  avoid registering switches added automatically by the gcc driver at the
571
   --  end of the command line.
572
 
573
   procedure Store_Linker_Option_String (S : String_Id);
574
   --  This procedure is called to register the string from a pragma
575
   --  Linker_Option. The argument is the Id of the string to register.
576
 
577
   procedure Initialize;
578
   --  Initialize internal tables
579
 
580
   procedure Lock;
581
   --  Lock internal tables before calling back end
582
 
583
   procedure Unlock;
584
   --  Unlock internal tables, in cases where the back end needs to modify them
585
 
586
   procedure Tree_Read;
587
   --  Initializes internal tables from current tree file using the relevant
588
   --  Table.Tree_Read routines.
589
 
590
   procedure Tree_Write;
591
   --  Writes out internal tables to current tree file using the relevant
592
   --  Table.Tree_Write routines.
593
 
594
   function Is_Loaded (Uname : Unit_Name_Type) return Boolean;
595
   --  Determines if unit with given name is already loaded, i.e. there is
596
   --  already an entry in the file table with this unit name for which the
597
   --  corresponding file was found and parsed. Note that the Fatal_Error flag
598
   --  of this entry must be checked before proceeding with further processing.
599
 
600
   procedure Version_Referenced (S : String_Id);
601
   --  This routine is called from Exp_Attr to register the use of a Version
602
   --  or Body_Version attribute. The argument is the external name used to
603
   --  access the version string.
604
 
605
   procedure List (File_Names_Only : Boolean := False);
606
   --  Lists units in active library (i.e. generates output consisting of a
607
   --  sorted listing of the units represented in File table, except for the
608
   --  main unit). If File_Names_Only is set to True, then the list includes
609
   --  only file names, and no other information. Otherwise the unit name and
610
   --  time stamp are also output. File_Names_Only also restricts the list to
611
   --  exclude any predefined files.
612
 
613
   function Generic_May_Lack_ALI (Sfile : File_Name_Type) return Boolean;
614
   --  Generic units must be separately compiled. Since we always use
615
   --  macro substitution for generics, the resulting object file is a dummy
616
   --  one with no code, but the ALI file has the normal form, and we need
617
   --  this ALI file so that the binder can work out a correct order of
618
   --  elaboration.
619
 
620
   --  However, ancient versions of GNAT used to not generate code or ALI
621
   --  files for generic units, and this would yield complex order of
622
   --  elaboration issues. These were fixed in GNAT 3.10. The support for not
623
   --  compiling language-defined library generics was retained nonetheless
624
   --  to facilitate bootstrap. Specifically, it is convenient to have
625
   --  the same list of files to be compiled for all stages. So, if the
626
   --  bootstrap compiler does not generate code for a given file, then
627
   --  the stage1 compiler (and binder) also must deal with the case of
628
   --  that file not being compiled. The predicate Generic_May_Lack_ALI is
629
   --  True for those generic units for which missing ALI files are allowed.
630
 
631
private
632
   pragma Inline (Cunit);
633
   pragma Inline (Cunit_Entity);
634
   pragma Inline (Dependency_Num);
635
   pragma Inline (Fatal_Error);
636
   pragma Inline (Generate_Code);
637
   pragma Inline (Has_RACW);
638
   pragma Inline (Is_Compiler_Unit);
639
   pragma Inline (Increment_Serial_Number);
640
   pragma Inline (Loading);
641
   pragma Inline (Main_Priority);
642
   pragma Inline (Munit_Index);
643
   pragma Inline (OA_Setting);
644
   pragma Inline (Set_Cunit);
645
   pragma Inline (Set_Cunit_Entity);
646
   pragma Inline (Set_Fatal_Error);
647
   pragma Inline (Set_Generate_Code);
648
   pragma Inline (Set_Has_RACW);
649
   pragma Inline (Set_Loading);
650
   pragma Inline (Set_Main_Priority);
651
   pragma Inline (Set_OA_Setting);
652
   pragma Inline (Set_Unit_Name);
653
   pragma Inline (Source_Index);
654
   pragma Inline (Unit_File_Name);
655
   pragma Inline (Unit_Name);
656
 
657
   type Unit_Record is record
658
      Unit_File_Name   : File_Name_Type;
659
      Unit_Name        : Unit_Name_Type;
660
      Munit_Index      : Nat;
661
      Expected_Unit    : Unit_Name_Type;
662
      Source_Index     : Source_File_Index;
663
      Cunit            : Node_Id;
664
      Cunit_Entity     : Entity_Id;
665
      Dependency_Num   : Int;
666
      Ident_String     : Node_Id;
667
      Main_Priority    : Int;
668
      Serial_Number    : Nat;
669
      Version          : Word;
670
      Error_Location   : Source_Ptr;
671
      Fatal_Error      : Boolean;
672
      Generate_Code    : Boolean;
673
      Has_RACW         : Boolean;
674
      Is_Compiler_Unit : Boolean;
675
      Dynamic_Elab     : Boolean;
676
      Loading          : Boolean;
677
      OA_Setting       : Character;
678
   end record;
679
 
680
   --  The following representation clause ensures that the above record
681
   --  has no holes. We do this so that when instances of this record are
682
   --  written by Tree_Gen, we do not write uninitialized values to the file.
683
 
684
   for Unit_Record use record
685
      Unit_File_Name   at  0 range 0 .. 31;
686
      Unit_Name        at  4 range 0 .. 31;
687
      Munit_Index      at  8 range 0 .. 31;
688
      Expected_Unit    at 12 range 0 .. 31;
689
      Source_Index     at 16 range 0 .. 31;
690
      Cunit            at 20 range 0 .. 31;
691
      Cunit_Entity     at 24 range 0 .. 31;
692
      Dependency_Num   at 28 range 0 .. 31;
693
      Ident_String     at 32 range 0 .. 31;
694
      Main_Priority    at 36 range 0 .. 31;
695
      Serial_Number    at 40 range 0 .. 31;
696
      Version          at 44 range 0 .. 31;
697
      Error_Location   at 48 range 0 .. 31;
698
      Fatal_Error      at 52 range 0 ..  7;
699
      Generate_Code    at 53 range 0 ..  7;
700
      Has_RACW         at 54 range 0 ..  7;
701
      Dynamic_Elab     at 55 range 0 ..  7;
702
      Is_Compiler_Unit at 56 range 0 ..  7;
703
      OA_Setting       at 57 range 0 ..  7;
704
      Loading          at 58 range 0 .. 15;
705
   end record;
706
 
707
   for Unit_Record'Size use 60 * 8;
708
   --  This ensures that we did not leave out any fields
709
 
710
   package Units is new Table.Table (
711
     Table_Component_Type => Unit_Record,
712
     Table_Index_Type     => Unit_Number_Type,
713
     Table_Low_Bound      => Main_Unit,
714
     Table_Initial        => Alloc.Units_Initial,
715
     Table_Increment      => Alloc.Units_Increment,
716
     Table_Name           => "Units");
717
 
718
   --  The following table stores strings from pragma Linker_Option lines
719
 
720
   type Linker_Option_Entry is record
721
      Option : String_Id;
722
      --  The string for the linker option line
723
 
724
      Unit : Unit_Number_Type;
725
      --  The unit from which the linker option comes
726
   end record;
727
 
728
   package Linker_Option_Lines is new Table.Table (
729
     Table_Component_Type => Linker_Option_Entry,
730
     Table_Index_Type     => Integer,
731
     Table_Low_Bound      => 1,
732
     Table_Initial        => Alloc.Linker_Option_Lines_Initial,
733
     Table_Increment      => Alloc.Linker_Option_Lines_Increment,
734
     Table_Name           => "Linker_Option_Lines");
735
 
736
   --  The following table records the compilation switches used to compile
737
   --  the main unit. The table includes only switches. It excludes -o
738
   --  switches as well as artifacts of the gcc/gnat1 interface such as
739
   --  -quiet, -dumpbase, or -auxbase.
740
 
741
   --  This table is set as part of the compiler argument scanning in
742
   --  Back_End. It can also be reset in -gnatc mode from the data in an
743
   --  existing ali file, and is read and written by the Tree_Read and
744
   --  Tree_Write routines for ASIS.
745
 
746
   package Compilation_Switches is new Table.Table (
747
     Table_Component_Type => String_Ptr,
748
     Table_Index_Type     => Nat,
749
     Table_Low_Bound      => 1,
750
     Table_Initial        => 30,
751
     Table_Increment      => 100,
752
     Table_Name           => "Compilation_Switches");
753
 
754
   Load_Msg_Sloc : Source_Ptr;
755
   --  Location for placing error messages (a token in the main source text)
756
   --  This is set from Sloc (Enode) by Load only in the case where this Sloc
757
   --  is in the main source file. This ensures that not found messages and
758
   --  circular dependency messages reference the original with in this source.
759
 
760
   type Unit_Ref_Table is array (Pos range <>) of Unit_Number_Type;
761
   --  Type to hold list of indirect references to unit number table
762
 
763
   type Load_Stack_Entry is record
764
      Unit_Number : Unit_Number_Type;
765
      With_Node   : Node_Id;
766
   end record;
767
 
768
   --  The Load_Stack table contains a list of unit numbers (indices into the
769
   --  unit table) of units being loaded on a single dependency chain, and a
770
   --  flag to indicate whether this unit is loaded through a limited_with
771
   --  clause. The First entry is the main unit. The second entry, if present
772
   --  is a unit on which the first unit depends, etc. This stack is used to
773
   --  generate error messages showing the dependency chain if a file is not
774
   --  found, or whether a true circular dependency exists.  The Load_Unit
775
   --  function makes an entry in this table when it is called, and removes
776
   --  the entry just before it returns.
777
 
778
   package Load_Stack is new Table.Table (
779
     Table_Component_Type => Load_Stack_Entry,
780
     Table_Index_Type     => Int,
781
     Table_Low_Bound      => 0,
782
     Table_Initial        => Alloc.Load_Stack_Initial,
783
     Table_Increment      => Alloc.Load_Stack_Increment,
784
     Table_Name           => "Load_Stack");
785
 
786
   procedure Sort (Tbl : in out Unit_Ref_Table);
787
   --  This procedure sorts the given unit reference table in order of
788
   --  ascending unit names, where the ordering relation is as described
789
   --  by the comparison routines provided by package Uname.
790
 
791
   --  The Version_Ref table records Body_Version and Version attribute
792
   --  references. The entries are simply the strings for the external
793
   --  names that correspond to the referenced values.
794
 
795
   package Version_Ref is new Table.Table (
796
     Table_Component_Type => String_Id,
797
     Table_Index_Type     => Nat,
798
     Table_Low_Bound      => 1,
799
     Table_Initial        => 20,
800
     Table_Increment      => 100,
801
     Table_Name           => "Version_Ref");
802
 
803
end Lib;

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