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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- S E M _ A U X --
6 -- --
7 -- S p e c --
8 -- --
9 -- Copyright (C) 1992-2017, 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 -- As a special exception, if other files instantiate generics from this --
22 -- unit, or you link this unit with other files to produce an executable, --
23 -- this unit does not by itself cause the resulting executable to be --
24 -- covered by the GNU General Public License. This exception does not --
25 -- however invalidate any other reasons why the executable file might be --
26 -- covered by the GNU Public License. --
27 -- --
28 -- GNAT was originally developed by the GNAT team at New York University. --
29 -- Extensive contributions were provided by Ada Core Technologies Inc. --
30 -- --
31 ------------------------------------------------------------------------------
33 -- Package containing utility procedures used throughout the compiler,
34 -- and also by ASIS so dependencies are limited to ASIS included packages.
36 -- Historical note. Many of the routines here were originally in Einfo, but
37 -- Einfo is supposed to be a relatively low level package dealing with the
38 -- content of entities in the tree, so this package is used for routines that
39 -- require more than minimal semantic knowledge.
49 --------------------------------
50 -- Obsolescent Warnings Table --
51 --------------------------------
53 -- This table records entities for which a pragma Obsolescent with a
54 -- message argument has been processed.
58 -- The entity to which the pragma applies
61 -- The string containing the message
73 -- Called at the start of compilation of each new main source file to
74 -- initialize the allocation of the Obsolescent_Warnings table. Note that
75 -- Initialize must not be called if Tree_Read is used.
78 -- Initializes Obsolescent_Warnings table from current tree file using the
79 -- relevant Table.Tree_Read routine.
82 -- Writes out Obsolescent_Warnings table to current tree file using the
83 -- relevant Table.Tree_Write routine.
85 -----------------
86 -- Subprograms --
87 -----------------
90 -- The argument Id is a type or subtype entity. If the argument is a
91 -- subtype then it returns the subtype or type from which the subtype was
92 -- obtained, otherwise it returns Empty.
95 -- Ent denotes an abstract state or a type that may come from a limited
96 -- with clause. Return the non-limited view of Ent if there is one or Ent
97 -- if this is not the case.
100 -- Ent is a variable, constant, named integer, or named real entity. This
101 -- call obtains the initialization expression for the entity. Will return
102 -- Empty for a deferred constant whose full view is not available or
103 -- in some other cases of internal entities, which cannot be treated as
104 -- constants from the point of view of constant folding. Empty is also
105 -- returned for variables with no initialization expression.
108 -- Typ is a signed integer subtype. This routine returns the standard
109 -- unsigned type with the same Esize as the implementation base type of
110 -- Typ, e.g. Long_Integer => Long_Unsigned.
113 -- For any entity, Ent, returns the closest dynamic scope in which the
114 -- entity is declared or Standard_Standard for library-level entities.
117 -- Typ is a type with discriminants. The discriminants are the first
118 -- entities declared in the type, so normally this is equivalent to
119 -- First_Entity. The exception arises for tagged types, where the tag
120 -- itself is prepended to the front of the entity chain, so the
121 -- First_Discriminant function steps past the tag if it is present.
122 -- The caller is responsible for checking that the type has discriminants.
123 -- When called on a private type with unknown discriminants, the function
124 -- always returns Empty.
127 -- Typ is a type with discriminants. Gives the first discriminant stored
128 -- in an object of this type. In many cases, these are the same as the
129 -- normal visible discriminants for the type, but in the case of renamed
130 -- discriminants, this is not always the case.
131 --
132 -- For tagged types, and untagged types which are root types or derived
133 -- types but which do not rename discriminants in their root type, the
134 -- stored discriminants are the same as the actual discriminants of the
135 -- type, and hence this function is the same as First_Discriminant.
136 --
137 -- For derived untagged types that rename discriminants in the root type
138 -- this is the first of the discriminants that occur in the root type. To
139 -- be precise, in this case stored discriminants are entities attached to
140 -- the entity chain of the derived type which are a copy of the
141 -- discriminants of the root type. Furthermore their Is_Completely_Hidden
142 -- flag is set since although they are actually stored in the object, they
143 -- are not in the set of discriminants that is visible in the type.
144 --
145 -- For derived untagged types, the set of stored discriminants are the real
146 -- discriminants from Gigi's standpoint, i.e. those that will be stored in
147 -- actual objects of the type.
150 -- Applies to all types and subtypes. For types, yields the first subtype
151 -- of the type. For subtypes, yields the first subtype of the base type of
152 -- the subtype.
155 -- Typ must be a tagged record type. This function returns the Entity for
156 -- the first _Tag field in the record type.
159 -- Op must be an entity with an Ekind of E_Operator. This function returns
160 -- the Nkind value that would be used to construct a binary operator node
161 -- referencing this entity. It is an error to call this function if Ekind
162 -- (Op) /= E_Operator.
165 -- Obtain the entity of the entry, operator, or subprogram being invoked
166 -- by call Call.
169 -- For an index subtype or string literal subtype, returns its low bound
172 -- Op must be an entity with an Ekind of E_Operator. This function returns
173 -- the Nkind value that would be used to construct a unary operator node
174 -- referencing this entity. It is an error to call this function if Ekind
175 -- (Op) /= E_Operator.
177 function Get_Rep_Item
181 -- Searches the Rep_Item chain for a given entity E, for an instance of a
182 -- rep item (pragma, attribute definition clause, or aspect specification)
183 -- whose name matches the given name Nam. If Check_Parents is False then it
184 -- only returns rep item that has been directly specified for E (and not
185 -- inherited from its parents, if any). If one is found, it is returned,
186 -- otherwise Empty is returned. A special case is that when Nam is
187 -- Name_Priority, the call will also find Interrupt_Priority.
189 function Get_Rep_Item
194 -- Searches the Rep_Item chain for a given entity E, for an instance of a
195 -- rep item (pragma, attribute definition clause, or aspect specification)
196 -- whose name matches one of the given names Nam1 or Nam2. If Check_Parents
197 -- is False then it only returns rep item that has been directly specified
198 -- for E (and not inherited from its parents, if any). If one is found, it
199 -- is returned, otherwise Empty is returned. A special case is that when
200 -- one of the given names is Name_Priority, the call will also find
201 -- Interrupt_Priority.
203 function Get_Rep_Pragma
207 -- Searches the Rep_Item chain for a given entity E, for an instance of a
208 -- representation pragma whose name matches the given name Nam. If
209 -- Check_Parents is False then it only returns representation pragma that
210 -- has been directly specified for E (and not inherited from its parents,
211 -- if any). If one is found and if it is the first rep item in the list
212 -- that matches Nam, it is returned, otherwise Empty is returned. A special
213 -- case is that when Nam is Name_Priority, the call will also find
214 -- Interrupt_Priority.
216 function Get_Rep_Pragma
221 -- Searches the Rep_Item chain for a given entity E, for an instance of a
222 -- representation pragma whose name matches one of the given names Nam1 or
223 -- Nam2. If Check_Parents is False then it only returns representation
224 -- pragma that has been directly specified for E (and not inherited from
225 -- its parents, if any). If one is found and if it is the first rep item in
226 -- the list that matches one of the given names, it is returned, otherwise
227 -- Empty is returned. A special case is that when one of the given names is
228 -- Name_Priority, the call will also find Interrupt_Priority.
230 function Has_Rep_Item
234 -- Searches the Rep_Item chain for the given entity E, for an instance of a
235 -- rep item (pragma, attribute definition clause, or aspect specification)
236 -- with the given name Nam. If Check_Parents is False then it only checks
237 -- for a rep item that has been directly specified for E (and not inherited
238 -- from its parents, if any). If found then True is returned, otherwise
239 -- False indicates that no matching entry was found.
241 function Has_Rep_Item
246 -- Searches the Rep_Item chain for the given entity E, for an instance of a
247 -- rep item (pragma, attribute definition clause, or aspect specification)
248 -- with the given names Nam1 or Nam2. If Check_Parents is False then it
249 -- only checks for a rep item that has been directly specified for E (and
250 -- not inherited from its parents, if any). If found then True is returned,
251 -- otherwise False indicates that no matching entry was found.
254 -- Determine whether the Rep_Item chain of arbitrary entity E contains item
255 -- N. N must denote a valid rep item.
257 function Has_Rep_Pragma
261 -- Searches the Rep_Item chain for the given entity E, for an instance of a
262 -- representation pragma with the given name Nam. If Check_Parents is False
263 -- then it only checks for a representation pragma that has been directly
264 -- specified for E (and not inherited from its parents, if any). If found
265 -- and if it is the first rep item in the list that matches Nam then True
266 -- is returned, otherwise False indicates that no matching entry was found.
268 function Has_Rep_Pragma
273 -- Searches the Rep_Item chain for the given entity E, for an instance of a
274 -- representation pragma with the given names Nam1 or Nam2. If
275 -- Check_Parents is False then it only checks for a rep item that has been
276 -- directly specified for E (and not inherited from its parents, if any).
277 -- If found and if it is the first rep item in the list that matches one of
278 -- the given names then True is returned, otherwise False indicates that no
279 -- matching entry was found.
282 -- Defined in tagged types. Set if an External_Tag rep. clause has been
283 -- given for this type. Use to avoid the generation of the default
284 -- External_Tag.
285 --
286 -- Note: we used to use an entity flag for this purpose, but that was wrong
287 -- because it was not propagated from the private view to the full view. We
288 -- could have added that propagation, but it would have been an annoying
289 -- irregularity compared to other representation aspects, and the cost of
290 -- looking up the aspect when needed is small.
293 -- True if T has discriminants and is unconstrained, or is an array type
294 -- whose element type Has_Unconstrained_Elements.
297 -- Return True if the first subtype of Typ is a discriminated record type
298 -- which has a variant part. False otherwise.
301 -- Determine whether entity Id appears inside a generic body
305 -- Returns True if initialization should be suppressed for the given type
306 -- or subtype. This is true if Suppress_Initialization is set either for
307 -- the subtype itself, or for the corresponding base type.
310 -- Determine whether an arbitrary node denotes a body
313 -- Ent is any entity. Returns True if Ent is a type entity where the type
314 -- is required to be passed by copy, as defined in (RM 6.2(3)).
317 -- Ent is any entity. Returns True if Ent is a type entity where the type
318 -- is required to be passed by reference, as defined in (RM 6.2(4-9)).
321 -- T is a type entity. Returns True if T is a definite subtype.
322 -- Indefinite subtypes are unconstrained arrays, unconstrained
323 -- discriminated types without defaulted discriminants, class-wide types,
324 -- and types with unknown discriminants. Definite subtypes are all others
325 -- (elementary, constrained composites (including the case of records
326 -- without discriminants), and types with defaulted discriminants).
329 -- Determines if the given entity Ent is a derived type. Result is always
330 -- false if argument is not a type.
333 -- Determine whether E is a generic formal parameter. In particular this is
334 -- used to set the visibility of generic formals of a generic package
335 -- declared with a box or with partial parameterization.
338 -- Implements definition in Ada 2012 RM-7.5 (8.1/3). This differs from the
339 -- following predicate in that an untagged record with immutably limited
340 -- components is NOT by itself immutably limited. This matters, e.g. when
341 -- checking the legality of an access to the current instance.
344 -- Ent is any entity. True for a type that is "inherently" limited (i.e.
345 -- cannot become nonlimited). From the Ada 2005 RM-7.5(8.1/2), "a type with
346 -- a part that is of a task, protected, or explicitly limited record type".
347 -- These are the types that are defined as return-by-reference types in Ada
348 -- 95 (see RM95-6.5(11-16)). In Ada 2005, these are the types that require
349 -- build-in-place for function calls. Note that build-in-place is allowed
350 -- for other types, too. This is also used for identifying pure procedures
351 -- whose calls should not be eliminated (RM 10.2.1(18/2)).
354 -- Ent is any entity. Returns true if Ent is a limited type (limited
355 -- private type, limited interface type, task type, protected type,
356 -- composite containing a limited component, or a subtype of any of
357 -- these types). This older routine overlaps with the previous one, this
358 -- should be cleaned up???
361 -- Given a subtype Typ, this function finds out the nearest ancestor from
362 -- which constraints and predicates are inherited. There is no simple link
363 -- for doing this, consider:
364 --
365 -- subtype R is Integer range 1 .. 10;
366 -- type T is new R;
367 --
368 -- In this case the nearest ancestor is R, but the Etype of T'Base will
369 -- point to R'Base, so we have to go rummaging in the declarations to get
370 -- this information. It is used for making sure we freeze this before we
371 -- freeze Typ, and also for retrieving inherited predicate information.
372 -- For the case of base types or first subtypes, there is no useful entity
373 -- to return, so Empty is returned.
374 --
375 -- Note: this is similar to Ancestor_Subtype except that it also deals
376 -- with the case of derived types.
379 -- This is similar to Enclosing_Dynamic_Scope except that if Ent is itself
380 -- a dynamic scope, then it is returned. Otherwise the result is the same
381 -- as that returned by Enclosing_Dynamic_Scope.
384 -- Tag must be an entity representing a _Tag field of a tagged record.
385 -- The result returned is the next _Tag field in this record, or Empty
386 -- if this is the last such field.
389 -- Typ is a record type, yields number of components (including
390 -- discriminants) in type.
393 -- Typ is a type with discriminants, yields number of discriminants in type
395 function Object_Type_Has_Constrained_Partial_View
398 -- Return True if type of object has attribute Has_Constrained_Partial_View
399 -- set to True; in addition, within a generic body, return True if subtype
400 -- of the object is a descendant of an untagged generic formal private or
401 -- derived type, and the subtype is not an unconstrained array subtype
402 -- (RM 3.3(23.10/3)).
405 -- Given an entity for a package (spec or body), return the corresponding
406 -- package body if any, or else Empty.
409 -- Given an entity for a package spec, return the corresponding package
410 -- spec if any, or else Empty.
413 -- Given an entity for a package, return the corresponding package
414 -- specification.
417 -- Given an entity for a subprogram (spec or body), return the
418 -- corresponding subprogram body if any, or else Empty.
421 -- Given an entity for a subprogram (spec or body), return the entity
422 -- corresponding to the subprogram body, which may be the same as E or
423 -- Empty if no body is available.
426 -- Given an entity for a subprogram spec, return the corresponding
427 -- subprogram spec if any, or else Empty.
430 -- Given an entity for a subprogram, return the corresponding subprogram
431 -- specification. If the entity is an inherited subprogram without
432 -- specification itself, return the specification of the inherited
433 -- subprogram.
437 -- Return the last entity in the chain of aliased entities of Prim. If Prim
438 -- has no alias return Prim.
441 -- Unit_Id is the simple name of a program unit, this function returns the
442 -- corresponding xxx_Declaration node for the entity. Also applies to the
443 -- body entities for subprograms, tasks and protected units, in which case
444 -- it returns the subprogram, task or protected body node for it. The unit
445 -- may be a child unit with any number of ancestors.