1 ------------------------------------------------------------------------------
3 -- GNAT COMPILER COMPONENTS --
9 -- Copyright (C) 1992-2004 Free Software Foundation, Inc. --
11 -- GNAT is free software; you can redistribute it and/or modify it under --
12 -- terms of the GNU General Public License as published by the Free Soft- --
13 -- ware Foundation; either version 2, 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 COPYING. If not, write --
19 -- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
20 -- MA 02111-1307, USA. --
22 -- As a special exception, if other files instantiate generics from this --
23 -- unit, or you link this unit with other files to produce an executable, --
24 -- this unit does not by itself cause the resulting executable to be --
25 -- covered by the GNU General Public License. This exception does not --
26 -- however invalidate any other reasons why the executable file might be --
27 -- covered by the GNU Public License. --
29 -- GNAT was originally developed by the GNAT team at New York University. --
30 -- Extensive contributions were provided by Ada Core Technologies Inc. --
32 ------------------------------------------------------------------------------
34 pragma Style_Checks
(All_Checks
);
35 -- Turn off subprogram ordering, not used for this unit
37 with Atree
; use Atree
;
38 with Namet
; use Namet
;
39 with Nlists
; use Nlists
;
40 with Sinfo
; use Sinfo
;
41 with Stand
; use Stand
;
42 with Output
; use Output
;
46 use Atree
.Unchecked_Access
;
47 -- This is one of the packages that is allowed direct untyped access to
48 -- the fields in a node, since it provides the next level abstraction
49 -- which incorporates appropriate checks.
51 ----------------------------------------------
52 -- Usage of Fields in Defining Entity Nodes --
53 ----------------------------------------------
55 -- Four of these fields are defined in Sinfo, since they in are the
56 -- base part of the node. The access routines for these fields and
57 -- the corresponding set procedures are defined in Sinfo. These fields
58 -- are present in all entities. Note that Homonym is also in the base
59 -- part of the node, but has access routines that are more properly
60 -- part of Einfo, which is why they are defined here.
67 -- Remaining fields are present only in extended nodes (i.e. entities)
69 -- The following fields are present in all entities
72 -- First_Rep_Item Node6
75 -- The usage of each field (and the entity kinds to which it applies)
76 -- depends on the particular field (see Einfo spec for details).
78 -- Associated_Node_For_Itype Node8
79 -- Dependent_Instances Elist8
80 -- Hiding_Loop_Variable Node8
81 -- Mechanism Uint8 (but returns Mechanism_Type)
82 -- Normalized_First_Bit Uint8
84 -- Class_Wide_Type Node9
85 -- Current_Value Node9
88 -- Discriminal_Link Node10
89 -- Handler_Records List10
90 -- Normalized_Position_Max Uint10
91 -- Referenced_Object Node10
93 -- Component_Bit_Offset Uint11
95 -- Entry_Component Node11
96 -- Enumeration_Pos Uint11
97 -- Generic_Homonym Node11
98 -- Protected_Body_Subprogram Node11
101 -- Barrier_Function Node12
102 -- Enumeration_Rep Uint12
104 -- Next_Inlined_Subprogram Node12
106 -- Corresponding_Equality Node13
107 -- Component_Clause Node13
108 -- Debug_Renaming_Link Node13
109 -- Elaboration_Entity Node13
110 -- Extra_Accessibility Node13
114 -- First_Optional_Parameter Node14
115 -- Normalized_Position Uint14
116 -- Shadow_Entities List14
118 -- Discriminant_Number Uint15
119 -- DT_Position Uint15
120 -- DT_Entry_Count Uint15
121 -- Entry_Bodies_Array Node15
122 -- Entry_Parameters_Type Node15
123 -- Extra_Formal Node15
124 -- Lit_Indexes Node15
125 -- Primitive_Operations Elist15
126 -- Related_Instance Node15
127 -- Scale_Value Uint15
128 -- Storage_Size_Variable Node15
129 -- String_Literal_Low_Bound Node15
130 -- Shared_Var_Read_Proc Node15
132 -- Access_Disp_Table Node16
133 -- Cloned_Subtype Node16
135 -- Entry_Formal Node16
136 -- First_Private_Entity Node16
137 -- Lit_Strings Node16
138 -- String_Literal_Length Uint16
139 -- Unset_Reference Node16
141 -- Actual_Subtype Node17
142 -- Digits_Value Uint17
143 -- Discriminal Node17
144 -- First_Entity Node17
145 -- First_Index Node17
146 -- First_Literal Node17
149 -- Non_Limited_View Node17
154 -- Corresponding_Concurrent_Type Node18
155 -- Corresponding_Record_Type Node18
156 -- Delta_Value Ureal18
157 -- Enclosing_Scope Node18
158 -- Equivalent_Type Node18
159 -- Private_Dependents Elist18
160 -- Renamed_Entity Node18
161 -- Renamed_Object Node18
163 -- Body_Entity Node19
164 -- Corresponding_Discriminant Node19
165 -- Finalization_Chain_Entity Node19
166 -- Parent_Subtype Node19
167 -- Related_Array_Object Node19
168 -- Size_Check_Code Node19
169 -- Spec_Entity Node19
170 -- Underlying_Full_View Node19
172 -- Component_Type Node20
173 -- Default_Value Node20
174 -- Directly_Designated_Type Node20
175 -- Discriminant_Checking_Func Node20
176 -- Discriminant_Default_Value Node20
177 -- Last_Entity Node20
178 -- Register_Exception_Call Node20
179 -- Scalar_Range Node20
181 -- Accept_Address Elist21
182 -- Default_Expr_Function Node21
183 -- Discriminant_Constraint Elist21
184 -- Interface_Name Node21
185 -- Original_Array_Type Node21
186 -- Small_Value Ureal21
188 -- Associated_Storage_Pool Node22
189 -- Component_Size Uint22
190 -- Corresponding_Remote_Type Node22
191 -- Enumeration_Rep_Expr Node22
192 -- Exception_Code Uint22
193 -- Original_Record_Component Node22
194 -- Private_View Node22
195 -- Protected_Formal Node22
196 -- Scope_Depth_Value Uint22
197 -- Shared_Var_Assign_Proc Node22
199 -- Associated_Final_Chain Node23
200 -- CR_Discriminant Node23
201 -- Stored_Constraint Elist23
202 -- Entry_Cancel_Parameter Node23
203 -- Extra_Constrained Node23
204 -- Generic_Renamings Elist23
205 -- Inner_Instances Elist23
206 -- Enum_Pos_To_Rep Node23
207 -- Packed_Array_Type Node23
208 -- Limited_Views Elist23
209 -- Privals_Chain Elist23
210 -- Protected_Operation Node23
212 ---------------------------------------------
213 -- Usage of Flags in Defining Entity Nodes --
214 ---------------------------------------------
216 -- All flags are unique, there is no overlaying, so each flag is physically
217 -- present in every entity. However, for many of the flags, it only makes
218 -- sense for them to be set true for certain subsets of entity kinds. See
219 -- the spec of Einfo for further details.
221 -- Note: Flag1-Flag3 are absent from this list, since these flag positions
222 -- are used for the flags Analyzed, Comes_From_Source, and Error_Posted,
223 -- which are common to all nodes, including entity nodes.
226 -- Has_Discriminants Flag5
227 -- Is_Dispatching_Operation Flag6
228 -- Is_Immediately_Visible Flag7
230 -- Is_Potentially_Use_Visible Flag9
234 -- Is_Constrained Flag12
235 -- Is_Generic_Type Flag13
236 -- Depends_On_Private Flag14
238 -- Is_Volatile Flag16
239 -- Is_Internal Flag17
240 -- Has_Delayed_Freeze Flag18
241 -- Is_Abstract Flag19
242 -- Is_Concurrent_Record_Type Flag20
244 -- Has_Master_Entity Flag21
245 -- Needs_No_Actuals Flag22
246 -- Has_Storage_Size_Clause Flag23
247 -- Is_Imported Flag24
248 -- Is_Limited_Record Flag25
249 -- Has_Completion Flag26
250 -- Has_Pragma_Controlled Flag27
251 -- Is_Statically_Allocated Flag28
252 -- Has_Size_Clause Flag29
255 -- Checks_May_Be_Suppressed Flag31
256 -- Kill_Elaboration_Checks Flag32
257 -- Kill_Range_Checks Flag33
258 -- Kill_Tag_Checks Flag34
259 -- Is_Class_Wide_Equivalent_Type Flag35
260 -- Referenced_As_LHS Flag36
261 -- Is_Known_Non_Null Flag37
262 -- Can_Never_Be_Null Flag38
263 -- Is_Overriding_Operation Flag39
264 -- Body_Needed_For_SAL Flag40
266 -- Treat_As_Volatile Flag41
267 -- Is_Controlled Flag42
268 -- Has_Controlled_Component Flag43
270 -- In_Private_Part Flag45
271 -- Has_Alignment_Clause Flag46
273 -- In_Package_Body Flag48
275 -- Delay_Subprogram_Descriptors Flag50
278 -- Is_Entry_Formal Flag52
279 -- Is_Private_Descendant Flag53
280 -- Return_Present Flag54
281 -- Is_Tagged_Type Flag55
282 -- Has_Homonym Flag56
284 -- Non_Binary_Modulus Flag58
285 -- Is_Preelaborated Flag59
286 -- Is_Shared_Passive Flag60
288 -- Is_Remote_Types Flag61
289 -- Is_Remote_Call_Interface Flag62
290 -- Is_Character_Type Flag63
291 -- Is_Intrinsic_Subprogram Flag64
292 -- Has_Record_Rep_Clause Flag65
293 -- Has_Enumeration_Rep_Clause Flag66
294 -- Has_Small_Clause Flag67
295 -- Has_Component_Size_Clause Flag68
296 -- Is_Access_Constant Flag69
297 -- Is_First_Subtype Flag70
299 -- Has_Completion_In_Body Flag71
300 -- Has_Unknown_Discriminants Flag72
301 -- Is_Child_Unit Flag73
302 -- Is_CPP_Class Flag74
303 -- Has_Non_Standard_Rep Flag75
304 -- Is_Constructor Flag76
305 -- Is_Thread_Body Flag77
307 -- Has_All_Calls_Remote Flag79
308 -- Is_Constr_Subt_For_U_Nominal Flag80
310 -- Is_Asynchronous Flag81
311 -- Has_Gigi_Rep_Item Flag82
312 -- Has_Machine_Radix_Clause Flag83
313 -- Machine_Radix_10 Flag84
315 -- Has_Atomic_Components Flag86
316 -- Has_Volatile_Components Flag87
317 -- Discard_Names Flag88
318 -- Is_Interrupt_Handler Flag89
319 -- Returns_By_Ref Flag90
322 -- Size_Known_At_Compile_Time Flag92
323 -- Has_Subprogram_Descriptor Flag93
324 -- Is_Generic_Actual_Type Flag94
325 -- Uses_Sec_Stack Flag95
326 -- Warnings_Off Flag96
327 -- Is_Controlling_Formal Flag97
328 -- Has_Controlling_Result Flag98
329 -- Is_Exported Flag99
330 -- Has_Specified_Layout Flag100
332 -- Has_Nested_Block_With_Handler Flag101
334 -- Is_Completely_Hidden Flag103
335 -- Address_Taken Flag104
336 -- Suppress_Init_Proc Flag105
337 -- Is_Limited_Composite Flag106
338 -- Is_Private_Composite Flag107
339 -- Default_Expressions_Processed Flag108
340 -- Is_Non_Static_Subtype Flag109
341 -- Has_External_Tag_Rep_Clause Flag110
343 -- Is_Formal_Subprogram Flag111
344 -- Is_Renaming_Of_Object Flag112
346 -- Delay_Cleanups Flag114
347 -- Never_Set_In_Source Flag115
348 -- Is_Visible_Child_Unit Flag116
349 -- Is_Unchecked_Union Flag117
350 -- Is_For_Access_Subtype Flag118
351 -- Has_Convention_Pragma Flag119
352 -- Has_Primitive_Operations Flag120
354 -- Has_Pragma_Pack Flag121
355 -- Is_Bit_Packed_Array Flag122
356 -- Has_Unchecked_Union Flag123
357 -- Is_Eliminated Flag124
358 -- C_Pass_By_Copy Flag125
359 -- Is_Instantiated Flag126
360 -- Is_Valued_Procedure Flag127
361 -- (used for Component_Alignment) Flag128
362 -- (used for Component_Alignment) Flag129
363 -- Is_Generic_Instance Flag130
365 -- No_Pool_Assigned Flag131
366 -- Is_AST_Entry Flag132
367 -- Is_VMS_Exception Flag133
368 -- Is_Optional_Parameter Flag134
369 -- Has_Aliased_Components Flag135
370 -- No_Strict_Aliasing Flag136
371 -- Is_Machine_Code_Subprogram Flag137
372 -- Is_Packed_Array_Type Flag138
373 -- Has_Biased_Representation Flag139
374 -- Has_Complex_Representation Flag140
376 -- Is_Constr_Subt_For_UN_Aliased Flag141
377 -- Has_Missing_Return Flag142
378 -- Has_Recursive_Call Flag143
379 -- Is_Unsigned_Type Flag144
380 -- Strict_Alignment Flag145
381 -- Elaborate_All_Desirable Flag146
382 -- Needs_Debug_Info Flag147
383 -- Suppress_Elaboration_Warnings Flag148
384 -- Is_Compilation_Unit Flag149
385 -- Has_Pragma_Elaborate_Body Flag150
388 -- Entry_Accepted Flag152
389 -- Is_Psected Flag153
390 -- Has_Per_Object_Constraint Flag154
391 -- Has_Private_Declaration Flag155
392 -- Referenced Flag156
393 -- Has_Pragma_Inline Flag157
394 -- Finalize_Storage_Only Flag158
395 -- From_With_Type Flag159
396 -- Is_Package_Body_Entity Flag160
398 -- Has_Qualified_Name Flag161
399 -- Nonzero_Is_True Flag162
400 -- Is_True_Constant Flag163
401 -- Reverse_Bit_Order Flag164
402 -- Suppress_Style_Checks Flag165
403 -- Debug_Info_Off Flag166
404 -- Sec_Stack_Needed_For_Return Flag167
405 -- Materialize_Entity Flag168
406 -- Function_Returns_With_DSP Flag169
407 -- Is_Known_Valid Flag170
409 -- Is_Hidden_Open_Scope Flag171
410 -- Has_Object_Size_Clause Flag172
411 -- Has_Fully_Qualified_Name Flag173
412 -- Elaboration_Entity_Required Flag174
413 -- Has_Forward_Instantiation Flag175
414 -- Is_Discrim_SO_Function Flag176
415 -- Size_Depends_On_Discriminant Flag177
416 -- Is_Null_Init_Proc Flag178
417 -- Has_Pragma_Pure_Function Flag179
418 -- Has_Pragma_Unreferenced Flag180
420 -- Has_Contiguous_Rep Flag181
421 -- Has_Xref_Entry Flag182
423 -- Remaining flags are currently unused and available
427 --------------------------------
428 -- Attribute Access Functions --
429 --------------------------------
431 function Accept_Address
(Id
: E
) return L
is
436 function Access_Disp_Table
(Id
: E
) return E
is
438 pragma Assert
(Is_Tagged_Type
(Id
));
439 return Node16
(Implementation_Base_Type
(Id
));
440 end Access_Disp_Table
;
442 function Actual_Subtype
(Id
: E
) return E
is
445 (Ekind
(Id
) = E_Constant
446 or else Ekind
(Id
) = E_Variable
447 or else Ekind
(Id
) = E_Generic_In_Out_Parameter
448 or else Ekind
(Id
) in E_In_Parameter
.. E_In_Out_Parameter
);
452 function Address_Taken
(Id
: E
) return B
is
457 function Alias
(Id
: E
) return E
is
460 (Is_Overloadable
(Id
) or else Ekind
(Id
) = E_Subprogram_Type
);
464 function Alignment
(Id
: E
) return U
is
466 pragma Assert
(Is_Type
(Id
)
467 or else Is_Formal
(Id
)
468 or else Ekind
(Id
) = E_Loop_Parameter
469 or else Ekind
(Id
) = E_Constant
470 or else Ekind
(Id
) = E_Exception
471 or else Ekind
(Id
) = E_Variable
);
475 function Associated_Final_Chain
(Id
: E
) return E
is
477 pragma Assert
(Is_Access_Type
(Id
));
479 end Associated_Final_Chain
;
481 function Associated_Formal_Package
(Id
: E
) return E
is
483 pragma Assert
(Ekind
(Id
) = E_Package
);
485 end Associated_Formal_Package
;
487 function Associated_Node_For_Itype
(Id
: E
) return N
is
490 end Associated_Node_For_Itype
;
492 function Associated_Storage_Pool
(Id
: E
) return E
is
494 pragma Assert
(Is_Access_Type
(Id
));
495 return Node22
(Root_Type
(Id
));
496 end Associated_Storage_Pool
;
498 function Barrier_Function
(Id
: E
) return N
is
500 pragma Assert
(Is_Entry
(Id
));
502 end Barrier_Function
;
504 function Block_Node
(Id
: E
) return N
is
506 pragma Assert
(Ekind
(Id
) = E_Block
);
510 function Body_Entity
(Id
: E
) return E
is
513 (Ekind
(Id
) = E_Package
or else Ekind
(Id
) = E_Generic_Package
);
517 function Body_Needed_For_SAL
(Id
: E
) return B
is
520 (Ekind
(Id
) = E_Package
521 or else Is_Subprogram
(Id
)
522 or else Is_Generic_Unit
(Id
));
524 end Body_Needed_For_SAL
;
526 function C_Pass_By_Copy
(Id
: E
) return B
is
528 pragma Assert
(Is_Record_Type
(Id
));
529 return Flag125
(Implementation_Base_Type
(Id
));
532 function Can_Never_Be_Null
(Id
: E
) return B
is
535 end Can_Never_Be_Null
;
537 function Checks_May_Be_Suppressed
(Id
: E
) return B
is
540 end Checks_May_Be_Suppressed
;
542 function Class_Wide_Type
(Id
: E
) return E
is
544 pragma Assert
(Is_Type
(Id
));
548 function Cloned_Subtype
(Id
: E
) return E
is
551 (Ekind
(Id
) = E_Record_Subtype
552 or else Ekind
(Id
) = E_Class_Wide_Subtype
);
556 function Component_Bit_Offset
(Id
: E
) return U
is
559 (Ekind
(Id
) = E_Component
or else Ekind
(Id
) = E_Discriminant
);
561 end Component_Bit_Offset
;
563 function Component_Clause
(Id
: E
) return N
is
566 (Ekind
(Id
) = E_Component
or else Ekind
(Id
) = E_Discriminant
);
568 end Component_Clause
;
570 function Component_Size
(Id
: E
) return U
is
572 pragma Assert
(Is_Array_Type
(Id
));
573 return Uint22
(Implementation_Base_Type
(Id
));
576 function Component_Type
(Id
: E
) return E
is
578 return Node20
(Implementation_Base_Type
(Id
));
581 function Corresponding_Concurrent_Type
(Id
: E
) return E
is
583 pragma Assert
(Ekind
(Id
) = E_Record_Type
);
585 end Corresponding_Concurrent_Type
;
587 function Corresponding_Discriminant
(Id
: E
) return E
is
589 pragma Assert
(Ekind
(Id
) = E_Discriminant
);
591 end Corresponding_Discriminant
;
593 function Corresponding_Equality
(Id
: E
) return E
is
596 (Ekind
(Id
) = E_Function
597 and then not Comes_From_Source
(Id
)
598 and then Chars
(Id
) = Name_Op_Ne
);
600 end Corresponding_Equality
;
602 function Corresponding_Record_Type
(Id
: E
) return E
is
604 pragma Assert
(Is_Concurrent_Type
(Id
));
606 end Corresponding_Record_Type
;
608 function Corresponding_Remote_Type
(Id
: E
) return E
is
611 end Corresponding_Remote_Type
;
613 function Current_Value
(Id
: E
) return N
is
615 pragma Assert
(Ekind
(Id
) in Object_Kind
);
619 function CR_Discriminant
(Id
: E
) return E
is
624 function Debug_Info_Off
(Id
: E
) return B
is
629 function Debug_Renaming_Link
(Id
: E
) return E
is
632 end Debug_Renaming_Link
;
634 function Default_Expr_Function
(Id
: E
) return E
is
636 pragma Assert
(Is_Formal
(Id
));
638 end Default_Expr_Function
;
640 function Default_Expressions_Processed
(Id
: E
) return B
is
643 end Default_Expressions_Processed
;
645 function Default_Value
(Id
: E
) return N
is
647 pragma Assert
(Is_Formal
(Id
));
651 function Delay_Cleanups
(Id
: E
) return B
is
656 function Delay_Subprogram_Descriptors
(Id
: E
) return B
is
659 end Delay_Subprogram_Descriptors
;
661 function Delta_Value
(Id
: E
) return R
is
663 pragma Assert
(Is_Fixed_Point_Type
(Id
));
667 function Dependent_Instances
(Id
: E
) return L
is
669 pragma Assert
(Is_Generic_Instance
(Id
));
671 end Dependent_Instances
;
673 function Depends_On_Private
(Id
: E
) return B
is
675 pragma Assert
(Nkind
(Id
) in N_Entity
);
677 end Depends_On_Private
;
679 function Digits_Value
(Id
: E
) return U
is
682 (Is_Floating_Point_Type
(Id
)
683 or else Is_Decimal_Fixed_Point_Type
(Id
));
687 function Directly_Designated_Type
(Id
: E
) return E
is
690 end Directly_Designated_Type
;
692 function Discard_Names
(Id
: E
) return B
is
697 function Discriminal
(Id
: E
) return E
is
699 pragma Assert
(Ekind
(Id
) = E_Discriminant
);
703 function Discriminal_Link
(Id
: E
) return N
is
706 end Discriminal_Link
;
708 function Discriminant_Checking_Func
(Id
: E
) return E
is
710 pragma Assert
(Ekind
(Id
) = E_Component
);
712 end Discriminant_Checking_Func
;
714 function Discriminant_Constraint
(Id
: E
) return L
is
716 pragma Assert
(Is_Composite_Type
(Id
) and then Has_Discriminants
(Id
));
718 end Discriminant_Constraint
;
720 function Discriminant_Default_Value
(Id
: E
) return N
is
722 pragma Assert
(Ekind
(Id
) = E_Discriminant
);
724 end Discriminant_Default_Value
;
726 function Discriminant_Number
(Id
: E
) return U
is
728 pragma Assert
(Ekind
(Id
) = E_Discriminant
);
730 end Discriminant_Number
;
732 function DT_Entry_Count
(Id
: E
) return U
is
734 pragma Assert
(Ekind
(Id
) = E_Component
and then Is_Tag
(Id
));
738 function DT_Position
(Id
: E
) return U
is
741 ((Ekind
(Id
) = E_Function
742 or else Ekind
(Id
) = E_Procedure
)
743 and then Present
(DTC_Entity
(Id
)));
747 function DTC_Entity
(Id
: E
) return E
is
750 (Ekind
(Id
) = E_Function
or else Ekind
(Id
) = E_Procedure
);
754 function Elaborate_All_Desirable
(Id
: E
) return B
is
757 end Elaborate_All_Desirable
;
759 function Elaboration_Entity
(Id
: E
) return E
is
764 Ekind
(Id
) = E_Package
766 Is_Generic_Unit
(Id
));
768 end Elaboration_Entity
;
770 function Elaboration_Entity_Required
(Id
: E
) return B
is
775 Ekind
(Id
) = E_Package
777 Is_Generic_Unit
(Id
));
779 end Elaboration_Entity_Required
;
781 function Enclosing_Scope
(Id
: E
) return E
is
786 function Entry_Accepted
(Id
: E
) return B
is
788 pragma Assert
(Is_Entry
(Id
));
792 function Entry_Bodies_Array
(Id
: E
) return E
is
795 end Entry_Bodies_Array
;
797 function Entry_Cancel_Parameter
(Id
: E
) return E
is
800 end Entry_Cancel_Parameter
;
802 function Entry_Component
(Id
: E
) return E
is
807 function Entry_Formal
(Id
: E
) return E
is
812 function Entry_Index_Constant
(Id
: E
) return N
is
814 pragma Assert
(Ekind
(Id
) = E_Entry_Index_Parameter
);
816 end Entry_Index_Constant
;
818 function Entry_Parameters_Type
(Id
: E
) return E
is
821 end Entry_Parameters_Type
;
823 function Enum_Pos_To_Rep
(Id
: E
) return E
is
825 pragma Assert
(Ekind
(Id
) = E_Enumeration_Type
);
829 function Enumeration_Pos
(Id
: E
) return Uint
is
831 pragma Assert
(Ekind
(Id
) = E_Enumeration_Literal
);
835 function Enumeration_Rep
(Id
: E
) return U
is
837 pragma Assert
(Ekind
(Id
) = E_Enumeration_Literal
);
841 function Enumeration_Rep_Expr
(Id
: E
) return N
is
843 pragma Assert
(Ekind
(Id
) = E_Enumeration_Literal
);
845 end Enumeration_Rep_Expr
;
847 function Equivalent_Type
(Id
: E
) return E
is
850 (Ekind
(Id
) = E_Class_Wide_Subtype
or else
851 Ekind
(Id
) = E_Access_Protected_Subprogram_Type
or else
852 Ekind
(Id
) = E_Access_Subprogram_Type
or else
853 Ekind
(Id
) = E_Exception_Type
);
857 function Esize
(Id
: E
) return Uint
is
862 function Exception_Code
(Id
: E
) return Uint
is
864 pragma Assert
(Ekind
(Id
) = E_Exception
);
868 function Extra_Accessibility
(Id
: E
) return E
is
870 pragma Assert
(Is_Formal
(Id
) or else Ekind
(Id
) = E_Variable
);
872 end Extra_Accessibility
;
874 function Extra_Constrained
(Id
: E
) return E
is
876 pragma Assert
(Is_Formal
(Id
) or else Ekind
(Id
) = E_Variable
);
878 end Extra_Constrained
;
880 function Extra_Formal
(Id
: E
) return E
is
885 function Finalization_Chain_Entity
(Id
: E
) return E
is
888 end Finalization_Chain_Entity
;
890 function Finalize_Storage_Only
(Id
: E
) return B
is
892 pragma Assert
(Is_Type
(Id
));
893 return Flag158
(Base_Type
(Id
));
894 end Finalize_Storage_Only
;
896 function First_Entity
(Id
: E
) return E
is
901 function First_Index
(Id
: E
) return N
is
906 function First_Literal
(Id
: E
) return E
is
911 function First_Optional_Parameter
(Id
: E
) return E
is
914 (Ekind
(Id
) = E_Function
or else Ekind
(Id
) = E_Procedure
);
916 end First_Optional_Parameter
;
918 function First_Private_Entity
(Id
: E
) return E
is
921 end First_Private_Entity
;
923 function First_Rep_Item
(Id
: E
) return E
is
928 function Freeze_Node
(Id
: E
) return N
is
933 function From_With_Type
(Id
: E
) return B
is
938 function Full_View
(Id
: E
) return E
is
940 pragma Assert
(Is_Type
(Id
) or else Ekind
(Id
) = E_Constant
);
944 function Function_Returns_With_DSP
(Id
: E
) return B
is
947 (Is_Subprogram
(Id
) or else Ekind
(Id
) = E_Subprogram_Type
);
949 end Function_Returns_With_DSP
;
951 function Generic_Homonym
(Id
: E
) return E
is
953 pragma Assert
(Ekind
(Id
) = E_Generic_Package
);
957 function Generic_Renamings
(Id
: E
) return L
is
960 end Generic_Renamings
;
962 function Handler_Records
(Id
: E
) return S
is
967 function Has_Aliased_Components
(Id
: E
) return B
is
969 return Flag135
(Implementation_Base_Type
(Id
));
970 end Has_Aliased_Components
;
972 function Has_Alignment_Clause
(Id
: E
) return B
is
975 end Has_Alignment_Clause
;
977 function Has_All_Calls_Remote
(Id
: E
) return B
is
980 end Has_All_Calls_Remote
;
982 function Has_Atomic_Components
(Id
: E
) return B
is
984 return Flag86
(Implementation_Base_Type
(Id
));
985 end Has_Atomic_Components
;
987 function Has_Biased_Representation
(Id
: E
) return B
is
990 end Has_Biased_Representation
;
992 function Has_Completion
(Id
: E
) return B
is
997 function Has_Completion_In_Body
(Id
: E
) return B
is
999 pragma Assert
(Is_Type
(Id
));
1001 end Has_Completion_In_Body
;
1003 function Has_Complex_Representation
(Id
: E
) return B
is
1005 pragma Assert
(Is_Type
(Id
));
1006 return Flag140
(Implementation_Base_Type
(Id
));
1007 end Has_Complex_Representation
;
1009 function Has_Component_Size_Clause
(Id
: E
) return B
is
1011 pragma Assert
(Is_Array_Type
(Id
));
1012 return Flag68
(Implementation_Base_Type
(Id
));
1013 end Has_Component_Size_Clause
;
1015 function Has_Controlled_Component
(Id
: E
) return B
is
1017 return Flag43
(Base_Type
(Id
));
1018 end Has_Controlled_Component
;
1020 function Has_Contiguous_Rep
(Id
: E
) return B
is
1022 return Flag181
(Id
);
1023 end Has_Contiguous_Rep
;
1025 function Has_Controlling_Result
(Id
: E
) return B
is
1028 end Has_Controlling_Result
;
1030 function Has_Convention_Pragma
(Id
: E
) return B
is
1032 return Flag119
(Id
);
1033 end Has_Convention_Pragma
;
1035 function Has_Delayed_Freeze
(Id
: E
) return B
is
1037 pragma Assert
(Nkind
(Id
) in N_Entity
);
1039 end Has_Delayed_Freeze
;
1041 function Has_Discriminants
(Id
: E
) return B
is
1043 pragma Assert
(Nkind
(Id
) in N_Entity
);
1045 end Has_Discriminants
;
1047 function Has_Enumeration_Rep_Clause
(Id
: E
) return B
is
1049 pragma Assert
(Is_Enumeration_Type
(Id
));
1051 end Has_Enumeration_Rep_Clause
;
1053 function Has_Exit
(Id
: E
) return B
is
1058 function Has_External_Tag_Rep_Clause
(Id
: E
) return B
is
1060 pragma Assert
(Is_Tagged_Type
(Id
));
1061 return Flag110
(Id
);
1062 end Has_External_Tag_Rep_Clause
;
1064 function Has_Forward_Instantiation
(Id
: E
) return B
is
1066 return Flag175
(Id
);
1067 end Has_Forward_Instantiation
;
1069 function Has_Fully_Qualified_Name
(Id
: E
) return B
is
1071 return Flag173
(Id
);
1072 end Has_Fully_Qualified_Name
;
1074 function Has_Gigi_Rep_Item
(Id
: E
) return B
is
1077 end Has_Gigi_Rep_Item
;
1079 function Has_Homonym
(Id
: E
) return B
is
1084 function Has_Machine_Radix_Clause
(Id
: E
) return B
is
1086 pragma Assert
(Is_Decimal_Fixed_Point_Type
(Id
));
1088 end Has_Machine_Radix_Clause
;
1090 function Has_Master_Entity
(Id
: E
) return B
is
1093 end Has_Master_Entity
;
1095 function Has_Missing_Return
(Id
: E
) return B
is
1098 (Ekind
(Id
) = E_Function
or else Ekind
(Id
) = E_Generic_Function
);
1099 return Flag142
(Id
);
1100 end Has_Missing_Return
;
1102 function Has_Nested_Block_With_Handler
(Id
: E
) return B
is
1104 return Flag101
(Id
);
1105 end Has_Nested_Block_With_Handler
;
1107 function Has_Non_Standard_Rep
(Id
: E
) return B
is
1109 return Flag75
(Implementation_Base_Type
(Id
));
1110 end Has_Non_Standard_Rep
;
1112 function Has_Object_Size_Clause
(Id
: E
) return B
is
1114 pragma Assert
(Is_Type
(Id
));
1115 return Flag172
(Id
);
1116 end Has_Object_Size_Clause
;
1118 function Has_Per_Object_Constraint
(Id
: E
) return B
is
1120 return Flag154
(Id
);
1121 end Has_Per_Object_Constraint
;
1123 function Has_Pragma_Controlled
(Id
: E
) return B
is
1125 pragma Assert
(Is_Access_Type
(Id
));
1126 return Flag27
(Implementation_Base_Type
(Id
));
1127 end Has_Pragma_Controlled
;
1129 function Has_Pragma_Elaborate_Body
(Id
: E
) return B
is
1131 return Flag150
(Id
);
1132 end Has_Pragma_Elaborate_Body
;
1134 function Has_Pragma_Inline
(Id
: E
) return B
is
1136 return Flag157
(Id
);
1137 end Has_Pragma_Inline
;
1139 function Has_Pragma_Pack
(Id
: E
) return B
is
1141 pragma Assert
(Is_Record_Type
(Id
) or else Is_Array_Type
(Id
));
1142 return Flag121
(Implementation_Base_Type
(Id
));
1143 end Has_Pragma_Pack
;
1145 function Has_Pragma_Pure_Function
(Id
: E
) return B
is
1147 pragma Assert
(Is_Subprogram
(Id
));
1148 return Flag179
(Id
);
1149 end Has_Pragma_Pure_Function
;
1151 function Has_Pragma_Unreferenced
(Id
: E
) return B
is
1153 return Flag180
(Id
);
1154 end Has_Pragma_Unreferenced
;
1156 function Has_Primitive_Operations
(Id
: E
) return B
is
1158 pragma Assert
(Is_Type
(Id
));
1159 return Flag120
(Base_Type
(Id
));
1160 end Has_Primitive_Operations
;
1162 function Has_Private_Declaration
(Id
: E
) return B
is
1164 return Flag155
(Id
);
1165 end Has_Private_Declaration
;
1167 function Has_Qualified_Name
(Id
: E
) return B
is
1169 return Flag161
(Id
);
1170 end Has_Qualified_Name
;
1172 function Has_Record_Rep_Clause
(Id
: E
) return B
is
1174 pragma Assert
(Is_Record_Type
(Id
));
1175 return Flag65
(Implementation_Base_Type
(Id
));
1176 end Has_Record_Rep_Clause
;
1178 function Has_Recursive_Call
(Id
: E
) return B
is
1180 pragma Assert
(Is_Subprogram
(Id
));
1181 return Flag143
(Id
);
1182 end Has_Recursive_Call
;
1184 function Has_Size_Clause
(Id
: E
) return B
is
1187 end Has_Size_Clause
;
1189 function Has_Small_Clause
(Id
: E
) return B
is
1192 end Has_Small_Clause
;
1194 function Has_Specified_Layout
(Id
: E
) return B
is
1196 pragma Assert
(Is_Type
(Id
));
1197 return Flag100
(Implementation_Base_Type
(Id
));
1198 end Has_Specified_Layout
;
1200 function Has_Storage_Size_Clause
(Id
: E
) return B
is
1202 pragma Assert
(Is_Access_Type
(Id
) or else Is_Task_Type
(Id
));
1203 return Flag23
(Implementation_Base_Type
(Id
));
1204 end Has_Storage_Size_Clause
;
1206 function Has_Subprogram_Descriptor
(Id
: E
) return B
is
1209 end Has_Subprogram_Descriptor
;
1211 function Has_Task
(Id
: E
) return B
is
1213 return Flag30
(Base_Type
(Id
));
1216 function Has_Unchecked_Union
(Id
: E
) return B
is
1218 return Flag123
(Base_Type
(Id
));
1219 end Has_Unchecked_Union
;
1221 function Has_Unknown_Discriminants
(Id
: E
) return B
is
1223 pragma Assert
(Is_Type
(Id
));
1225 end Has_Unknown_Discriminants
;
1227 function Has_Volatile_Components
(Id
: E
) return B
is
1229 return Flag87
(Implementation_Base_Type
(Id
));
1230 end Has_Volatile_Components
;
1232 function Has_Xref_Entry
(Id
: E
) return B
is
1234 return Flag182
(Implementation_Base_Type
(Id
));
1237 function Hiding_Loop_Variable
(Id
: E
) return E
is
1239 pragma Assert
(Ekind
(Id
) = E_Variable
);
1241 end Hiding_Loop_Variable
;
1243 function Homonym
(Id
: E
) return E
is
1248 function In_Package_Body
(Id
: E
) return B
is
1251 end In_Package_Body
;
1253 function In_Private_Part
(Id
: E
) return B
is
1256 end In_Private_Part
;
1258 function In_Use
(Id
: E
) return B
is
1260 pragma Assert
(Nkind
(Id
) in N_Entity
);
1264 function Inner_Instances
(Id
: E
) return L
is
1266 return Elist23
(Id
);
1267 end Inner_Instances
;
1269 function Interface_Name
(Id
: E
) return N
is
1274 function Is_Abstract
(Id
: E
) return B
is
1279 function Is_Access_Constant
(Id
: E
) return B
is
1281 pragma Assert
(Is_Access_Type
(Id
));
1283 end Is_Access_Constant
;
1285 function Is_Aliased
(Id
: E
) return B
is
1287 pragma Assert
(Nkind
(Id
) in N_Entity
);
1291 function Is_AST_Entry
(Id
: E
) return B
is
1293 pragma Assert
(Is_Entry
(Id
));
1294 return Flag132
(Id
);
1297 function Is_Asynchronous
(Id
: E
) return B
is
1300 (Ekind
(Id
) = E_Procedure
or else Is_Type
(Id
));
1302 end Is_Asynchronous
;
1304 function Is_Atomic
(Id
: E
) return B
is
1309 function Is_Bit_Packed_Array
(Id
: E
) return B
is
1311 return Flag122
(Implementation_Base_Type
(Id
));
1312 end Is_Bit_Packed_Array
;
1314 function Is_Called
(Id
: E
) return B
is
1317 (Ekind
(Id
) = E_Procedure
or else Ekind
(Id
) = E_Function
);
1318 return Flag102
(Id
);
1321 function Is_Character_Type
(Id
: E
) return B
is
1324 end Is_Character_Type
;
1326 function Is_Child_Unit
(Id
: E
) return B
is
1331 function Is_Class_Wide_Equivalent_Type
(Id
: E
) return B
is
1334 end Is_Class_Wide_Equivalent_Type
;
1336 function Is_Compilation_Unit
(Id
: E
) return B
is
1338 return Flag149
(Id
);
1339 end Is_Compilation_Unit
;
1341 function Is_Completely_Hidden
(Id
: E
) return B
is
1343 pragma Assert
(Ekind
(Id
) = E_Discriminant
);
1344 return Flag103
(Id
);
1345 end Is_Completely_Hidden
;
1347 function Is_Constr_Subt_For_U_Nominal
(Id
: E
) return B
is
1350 end Is_Constr_Subt_For_U_Nominal
;
1352 function Is_Constr_Subt_For_UN_Aliased
(Id
: E
) return B
is
1354 return Flag141
(Id
);
1355 end Is_Constr_Subt_For_UN_Aliased
;
1357 function Is_Constrained
(Id
: E
) return B
is
1359 pragma Assert
(Nkind
(Id
) in N_Entity
);
1363 function Is_Constructor
(Id
: E
) return B
is
1368 function Is_Controlled
(Id
: E
) return B
is
1370 return Flag42
(Base_Type
(Id
));
1373 function Is_Controlling_Formal
(Id
: E
) return B
is
1375 pragma Assert
(Is_Formal
(Id
));
1377 end Is_Controlling_Formal
;
1379 function Is_CPP_Class
(Id
: E
) return B
is
1384 function Is_Discrim_SO_Function
(Id
: E
) return B
is
1386 return Flag176
(Id
);
1387 end Is_Discrim_SO_Function
;
1389 function Is_Dispatching_Operation
(Id
: E
) return B
is
1391 pragma Assert
(Nkind
(Id
) in N_Entity
);
1393 end Is_Dispatching_Operation
;
1395 function Is_Eliminated
(Id
: E
) return B
is
1397 return Flag124
(Id
);
1400 function Is_Entry_Formal
(Id
: E
) return B
is
1403 end Is_Entry_Formal
;
1405 function Is_Exported
(Id
: E
) return B
is
1410 function Is_First_Subtype
(Id
: E
) return B
is
1413 end Is_First_Subtype
;
1415 function Is_For_Access_Subtype
(Id
: E
) return B
is
1418 (Ekind
(Id
) = E_Record_Subtype
1420 Ekind
(Id
) = E_Private_Subtype
);
1421 return Flag118
(Id
);
1422 end Is_For_Access_Subtype
;
1424 function Is_Formal_Subprogram
(Id
: E
) return B
is
1426 return Flag111
(Id
);
1427 end Is_Formal_Subprogram
;
1429 function Is_Frozen
(Id
: E
) return B
is
1434 function Is_Generic_Actual_Type
(Id
: E
) return B
is
1436 pragma Assert
(Is_Type
(Id
));
1438 end Is_Generic_Actual_Type
;
1440 function Is_Generic_Instance
(Id
: E
) return B
is
1442 return Flag130
(Id
);
1443 end Is_Generic_Instance
;
1445 function Is_Generic_Type
(Id
: E
) return B
is
1447 pragma Assert
(Nkind
(Id
) in N_Entity
);
1449 end Is_Generic_Type
;
1451 function Is_Hidden
(Id
: E
) return B
is
1456 function Is_Hidden_Open_Scope
(Id
: E
) return B
is
1458 return Flag171
(Id
);
1459 end Is_Hidden_Open_Scope
;
1461 function Is_Immediately_Visible
(Id
: E
) return B
is
1463 pragma Assert
(Nkind
(Id
) in N_Entity
);
1465 end Is_Immediately_Visible
;
1467 function Is_Imported
(Id
: E
) return B
is
1472 function Is_Inlined
(Id
: E
) return B
is
1477 function Is_Instantiated
(Id
: E
) return B
is
1479 return Flag126
(Id
);
1480 end Is_Instantiated
;
1482 function Is_Internal
(Id
: E
) return B
is
1484 pragma Assert
(Nkind
(Id
) in N_Entity
);
1488 function Is_Interrupt_Handler
(Id
: E
) return B
is
1490 pragma Assert
(Nkind
(Id
) in N_Entity
);
1492 end Is_Interrupt_Handler
;
1494 function Is_Intrinsic_Subprogram
(Id
: E
) return B
is
1497 end Is_Intrinsic_Subprogram
;
1499 function Is_Itype
(Id
: E
) return B
is
1504 function Is_Known_Non_Null
(Id
: E
) return B
is
1507 end Is_Known_Non_Null
;
1509 function Is_Known_Valid
(Id
: E
) return B
is
1511 return Flag170
(Id
);
1514 function Is_Limited_Composite
(Id
: E
) return B
is
1516 return Flag106
(Id
);
1517 end Is_Limited_Composite
;
1519 function Is_Limited_Record
(Id
: E
) return B
is
1522 end Is_Limited_Record
;
1524 function Is_Machine_Code_Subprogram
(Id
: E
) return B
is
1526 pragma Assert
(Is_Subprogram
(Id
));
1527 return Flag137
(Id
);
1528 end Is_Machine_Code_Subprogram
;
1530 function Is_Non_Static_Subtype
(Id
: E
) return B
is
1532 pragma Assert
(Is_Type
(Id
));
1533 return Flag109
(Id
);
1534 end Is_Non_Static_Subtype
;
1536 function Is_Null_Init_Proc
(Id
: E
) return B
is
1538 pragma Assert
(Ekind
(Id
) = E_Procedure
);
1539 return Flag178
(Id
);
1540 end Is_Null_Init_Proc
;
1542 function Is_Optional_Parameter
(Id
: E
) return B
is
1544 pragma Assert
(Is_Formal
(Id
));
1545 return Flag134
(Id
);
1546 end Is_Optional_Parameter
;
1548 function Is_Overriding_Operation
(Id
: E
) return B
is
1550 pragma Assert
(Is_Subprogram
(Id
));
1552 end Is_Overriding_Operation
;
1554 function Is_Package_Body_Entity
(Id
: E
) return B
is
1556 return Flag160
(Id
);
1557 end Is_Package_Body_Entity
;
1559 function Is_Packed
(Id
: E
) return B
is
1561 return Flag51
(Implementation_Base_Type
(Id
));
1564 function Is_Packed_Array_Type
(Id
: E
) return B
is
1566 return Flag138
(Id
);
1567 end Is_Packed_Array_Type
;
1569 function Is_Potentially_Use_Visible
(Id
: E
) return B
is
1571 pragma Assert
(Nkind
(Id
) in N_Entity
);
1573 end Is_Potentially_Use_Visible
;
1575 function Is_Preelaborated
(Id
: E
) return B
is
1578 end Is_Preelaborated
;
1580 function Is_Private_Composite
(Id
: E
) return B
is
1582 pragma Assert
(Is_Type
(Id
));
1583 return Flag107
(Id
);
1584 end Is_Private_Composite
;
1586 function Is_Private_Descendant
(Id
: E
) return B
is
1589 end Is_Private_Descendant
;
1591 function Is_Psected
(Id
: E
) return B
is
1593 return Flag153
(Id
);
1596 function Is_Public
(Id
: E
) return B
is
1598 pragma Assert
(Nkind
(Id
) in N_Entity
);
1602 function Is_Pure
(Id
: E
) return B
is
1607 function Is_Remote_Call_Interface
(Id
: E
) return B
is
1610 end Is_Remote_Call_Interface
;
1612 function Is_Remote_Types
(Id
: E
) return B
is
1615 end Is_Remote_Types
;
1617 function Is_Renaming_Of_Object
(Id
: E
) return B
is
1619 return Flag112
(Id
);
1620 end Is_Renaming_Of_Object
;
1622 function Is_Shared_Passive
(Id
: E
) return B
is
1625 end Is_Shared_Passive
;
1627 function Is_Statically_Allocated
(Id
: E
) return B
is
1630 end Is_Statically_Allocated
;
1632 function Is_Tag
(Id
: E
) return B
is
1634 pragma Assert
(Nkind
(Id
) in N_Entity
);
1638 function Is_Tagged_Type
(Id
: E
) return B
is
1643 function Is_Thread_Body
(Id
: E
) return B
is
1648 function Is_True_Constant
(Id
: E
) return B
is
1650 return Flag163
(Id
);
1651 end Is_True_Constant
;
1653 function Is_Unchecked_Union
(Id
: E
) return B
is
1655 return Flag117
(Id
);
1656 end Is_Unchecked_Union
;
1658 function Is_Unsigned_Type
(Id
: E
) return B
is
1660 pragma Assert
(Is_Type
(Id
));
1661 return Flag144
(Id
);
1662 end Is_Unsigned_Type
;
1664 function Is_Valued_Procedure
(Id
: E
) return B
is
1666 pragma Assert
(Ekind
(Id
) = E_Procedure
);
1667 return Flag127
(Id
);
1668 end Is_Valued_Procedure
;
1670 function Is_Visible_Child_Unit
(Id
: E
) return B
is
1672 pragma Assert
(Is_Child_Unit
(Id
));
1673 return Flag116
(Id
);
1674 end Is_Visible_Child_Unit
;
1676 function Is_VMS_Exception
(Id
: E
) return B
is
1678 return Flag133
(Id
);
1679 end Is_VMS_Exception
;
1681 function Is_Volatile
(Id
: E
) return B
is
1683 pragma Assert
(Nkind
(Id
) in N_Entity
);
1684 if Is_Type
(Id
) then
1685 return Flag16
(Base_Type
(Id
));
1691 function Kill_Elaboration_Checks
(Id
: E
) return B
is
1694 end Kill_Elaboration_Checks
;
1696 function Kill_Range_Checks
(Id
: E
) return B
is
1699 end Kill_Range_Checks
;
1701 function Kill_Tag_Checks
(Id
: E
) return B
is
1704 end Kill_Tag_Checks
;
1706 function Last_Entity
(Id
: E
) return E
is
1711 function Limited_Views
(Id
: E
) return L
is
1713 pragma Assert
(Ekind
(Id
) = E_Package
);
1714 return Elist23
(Id
);
1717 function Lit_Indexes
(Id
: E
) return E
is
1719 pragma Assert
(Is_Enumeration_Type
(Id
));
1723 function Lit_Strings
(Id
: E
) return E
is
1725 pragma Assert
(Is_Enumeration_Type
(Id
));
1729 function Machine_Radix_10
(Id
: E
) return B
is
1731 pragma Assert
(Is_Decimal_Fixed_Point_Type
(Id
));
1733 end Machine_Radix_10
;
1735 function Master_Id
(Id
: E
) return E
is
1740 function Materialize_Entity
(Id
: E
) return B
is
1742 return Flag168
(Id
);
1743 end Materialize_Entity
;
1745 function Mechanism
(Id
: E
) return M
is
1747 pragma Assert
(Ekind
(Id
) = E_Function
or else Is_Formal
(Id
));
1748 return UI_To_Int
(Uint8
(Id
));
1751 function Modulus
(Id
: E
) return Uint
is
1753 pragma Assert
(Is_Modular_Integer_Type
(Id
));
1754 return Uint17
(Base_Type
(Id
));
1757 function Needs_Debug_Info
(Id
: E
) return B
is
1759 return Flag147
(Id
);
1760 end Needs_Debug_Info
;
1762 function Needs_No_Actuals
(Id
: E
) return B
is
1765 (Is_Overloadable
(Id
)
1766 or else Ekind
(Id
) = E_Subprogram_Type
1767 or else Ekind
(Id
) = E_Entry_Family
);
1769 end Needs_No_Actuals
;
1771 function Never_Set_In_Source
(Id
: E
) return B
is
1773 return Flag115
(Id
);
1774 end Never_Set_In_Source
;
1776 function Next_Inlined_Subprogram
(Id
: E
) return E
is
1779 end Next_Inlined_Subprogram
;
1781 function No_Pool_Assigned
(Id
: E
) return B
is
1783 pragma Assert
(Is_Access_Type
(Id
));
1784 return Flag131
(Root_Type
(Id
));
1785 end No_Pool_Assigned
;
1787 function No_Return
(Id
: E
) return B
is
1791 or else Ekind
(Id
) = E_Procedure
1792 or else Ekind
(Id
) = E_Generic_Procedure
);
1793 return Flag113
(Id
);
1796 function No_Strict_Aliasing
(Id
: E
) return B
is
1798 pragma Assert
(Is_Access_Type
(Id
));
1799 return Flag136
(Base_Type
(Id
));
1800 end No_Strict_Aliasing
;
1802 function Non_Binary_Modulus
(Id
: E
) return B
is
1804 pragma Assert
(Is_Modular_Integer_Type
(Id
));
1805 return Flag58
(Base_Type
(Id
));
1806 end Non_Binary_Modulus
;
1808 function Non_Limited_View
(Id
: E
) return E
is
1810 pragma Assert
(False
1811 or else Ekind
(Id
) = E_Incomplete_Type
);
1813 end Non_Limited_View
;
1815 function Nonzero_Is_True
(Id
: E
) return B
is
1817 pragma Assert
(Root_Type
(Id
) = Standard_Boolean
);
1818 return Flag162
(Base_Type
(Id
));
1819 end Nonzero_Is_True
;
1821 function Normalized_First_Bit
(Id
: E
) return U
is
1824 (Ekind
(Id
) = E_Component
or else Ekind
(Id
) = E_Discriminant
);
1826 end Normalized_First_Bit
;
1828 function Normalized_Position
(Id
: E
) return U
is
1831 (Ekind
(Id
) = E_Component
or else Ekind
(Id
) = E_Discriminant
);
1833 end Normalized_Position
;
1835 function Normalized_Position_Max
(Id
: E
) return U
is
1838 (Ekind
(Id
) = E_Component
or else Ekind
(Id
) = E_Discriminant
);
1840 end Normalized_Position_Max
;
1842 function Object_Ref
(Id
: E
) return E
is
1844 pragma Assert
(Ekind
(Id
) = E_Protected_Body
);
1848 function Original_Access_Type
(Id
: E
) return E
is
1851 (Ekind
(Id
) = E_Access_Subprogram_Type
1852 or else Ekind
(Id
) = E_Access_Protected_Subprogram_Type
);
1854 end Original_Access_Type
;
1856 function Original_Array_Type
(Id
: E
) return E
is
1858 pragma Assert
(Is_Array_Type
(Id
) or else Is_Modular_Integer_Type
(Id
));
1860 end Original_Array_Type
;
1862 function Original_Record_Component
(Id
: E
) return E
is
1865 (Ekind
(Id
) = E_Void
1866 or else Ekind
(Id
) = E_Component
1867 or else Ekind
(Id
) = E_Discriminant
);
1869 end Original_Record_Component
;
1871 function Packed_Array_Type
(Id
: E
) return E
is
1873 pragma Assert
(Is_Array_Type
(Id
));
1875 end Packed_Array_Type
;
1877 function Parent_Subtype
(Id
: E
) return E
is
1879 pragma Assert
(Ekind
(Id
) = E_Record_Type
);
1883 function Primitive_Operations
(Id
: E
) return L
is
1885 pragma Assert
(Is_Tagged_Type
(Id
));
1886 return Elist15
(Id
);
1887 end Primitive_Operations
;
1889 function Prival
(Id
: E
) return E
is
1891 pragma Assert
(Is_Protected_Private
(Id
));
1895 function Privals_Chain
(Id
: E
) return L
is
1897 pragma Assert
(Is_Overloadable
(Id
)
1898 or else Ekind
(Id
) = E_Entry_Family
);
1899 return Elist23
(Id
);
1902 function Private_Dependents
(Id
: E
) return L
is
1904 pragma Assert
(Is_Incomplete_Or_Private_Type
(Id
));
1905 return Elist18
(Id
);
1906 end Private_Dependents
;
1908 function Private_View
(Id
: E
) return N
is
1910 pragma Assert
(Is_Private_Type
(Id
));
1914 function Protected_Body_Subprogram
(Id
: E
) return E
is
1916 pragma Assert
(Is_Subprogram
(Id
) or else Is_Entry
(Id
));
1918 end Protected_Body_Subprogram
;
1920 function Protected_Formal
(Id
: E
) return E
is
1922 pragma Assert
(Is_Formal
(Id
));
1924 end Protected_Formal
;
1926 function Protected_Operation
(Id
: E
) return N
is
1928 pragma Assert
(Is_Protected_Private
(Id
));
1930 end Protected_Operation
;
1932 function Reachable
(Id
: E
) return B
is
1937 function Referenced
(Id
: E
) return B
is
1939 return Flag156
(Id
);
1942 function Referenced_As_LHS
(Id
: E
) return B
is
1945 end Referenced_As_LHS
;
1947 function Referenced_Object
(Id
: E
) return N
is
1949 pragma Assert
(Is_Type
(Id
));
1951 end Referenced_Object
;
1953 function Register_Exception_Call
(Id
: E
) return N
is
1955 pragma Assert
(Ekind
(Id
) = E_Exception
);
1957 end Register_Exception_Call
;
1959 function Related_Array_Object
(Id
: E
) return E
is
1961 pragma Assert
(Is_Array_Type
(Id
));
1963 end Related_Array_Object
;
1965 function Related_Instance
(Id
: E
) return E
is
1968 (Ekind
(Id
) = E_Package
or else Ekind
(Id
) = E_Package_Body
);
1970 end Related_Instance
;
1972 function Renamed_Entity
(Id
: E
) return N
is
1977 function Renamed_Object
(Id
: E
) return N
is
1982 function Renaming_Map
(Id
: E
) return U
is
1987 function Return_Present
(Id
: E
) return B
is
1992 function Returns_By_Ref
(Id
: E
) return B
is
1997 function Reverse_Bit_Order
(Id
: E
) return B
is
1999 pragma Assert
(Is_Record_Type
(Id
));
2000 return Flag164
(Base_Type
(Id
));
2001 end Reverse_Bit_Order
;
2003 function RM_Size
(Id
: E
) return U
is
2005 pragma Assert
(Is_Type
(Id
));
2009 function Scalar_Range
(Id
: E
) return N
is
2014 function Scale_Value
(Id
: E
) return U
is
2019 function Scope_Depth_Value
(Id
: E
) return U
is
2022 end Scope_Depth_Value
;
2024 function Sec_Stack_Needed_For_Return
(Id
: E
) return B
is
2026 return Flag167
(Id
);
2027 end Sec_Stack_Needed_For_Return
;
2029 function Shadow_Entities
(Id
: E
) return S
is
2032 (Ekind
(Id
) = E_Package
or else Ekind
(Id
) = E_Generic_Package
);
2034 end Shadow_Entities
;
2036 function Shared_Var_Assign_Proc
(Id
: E
) return E
is
2038 pragma Assert
(Ekind
(Id
) = E_Variable
);
2040 end Shared_Var_Assign_Proc
;
2042 function Shared_Var_Read_Proc
(Id
: E
) return E
is
2044 pragma Assert
(Ekind
(Id
) = E_Variable
);
2046 end Shared_Var_Read_Proc
;
2048 function Size_Check_Code
(Id
: E
) return N
is
2050 pragma Assert
(Ekind
(Id
) = E_Constant
or else Ekind
(Id
) = E_Variable
);
2052 end Size_Check_Code
;
2054 function Size_Depends_On_Discriminant
(Id
: E
) return B
is
2056 return Flag177
(Id
);
2057 end Size_Depends_On_Discriminant
;
2059 function Size_Known_At_Compile_Time
(Id
: E
) return B
is
2062 end Size_Known_At_Compile_Time
;
2064 function Small_Value
(Id
: E
) return R
is
2066 pragma Assert
(Is_Fixed_Point_Type
(Id
));
2067 return Ureal21
(Id
);
2070 function Spec_Entity
(Id
: E
) return E
is
2073 (Ekind
(Id
) = E_Package_Body
or else Is_Formal
(Id
));
2077 function Storage_Size_Variable
(Id
: E
) return E
is
2079 pragma Assert
(Is_Access_Type
(Id
) or else Is_Task_Type
(Id
));
2080 return Node15
(Implementation_Base_Type
(Id
));
2081 end Storage_Size_Variable
;
2083 function Stored_Constraint
(Id
: E
) return L
is
2086 (Is_Composite_Type
(Id
) and then not Is_Array_Type
(Id
));
2087 return Elist23
(Id
);
2088 end Stored_Constraint
;
2090 function Strict_Alignment
(Id
: E
) return B
is
2092 return Flag145
(Implementation_Base_Type
(Id
));
2093 end Strict_Alignment
;
2095 function String_Literal_Length
(Id
: E
) return U
is
2098 end String_Literal_Length
;
2100 function String_Literal_Low_Bound
(Id
: E
) return N
is
2103 end String_Literal_Low_Bound
;
2105 function Suppress_Elaboration_Warnings
(Id
: E
) return B
is
2107 return Flag148
(Id
);
2108 end Suppress_Elaboration_Warnings
;
2110 function Suppress_Init_Proc
(Id
: E
) return B
is
2112 return Flag105
(Base_Type
(Id
));
2113 end Suppress_Init_Proc
;
2115 function Suppress_Style_Checks
(Id
: E
) return B
is
2117 return Flag165
(Id
);
2118 end Suppress_Style_Checks
;
2120 function Treat_As_Volatile
(Id
: E
) return B
is
2123 end Treat_As_Volatile
;
2125 function Underlying_Full_View
(Id
: E
) return E
is
2127 pragma Assert
(Ekind
(Id
) in Private_Kind
);
2129 end Underlying_Full_View
;
2131 function Unset_Reference
(Id
: E
) return N
is
2134 end Unset_Reference
;
2136 function Uses_Sec_Stack
(Id
: E
) return B
is
2141 function Vax_Float
(Id
: E
) return B
is
2143 return Flag151
(Base_Type
(Id
));
2146 function Warnings_Off
(Id
: E
) return B
is
2151 ------------------------------
2152 -- Classification Functions --
2153 ------------------------------
2155 function Is_Access_Type
(Id
: E
) return B
is
2157 return Ekind
(Id
) in Access_Kind
;
2160 function Is_Array_Type
(Id
: E
) return B
is
2162 return Ekind
(Id
) in Array_Kind
;
2165 function Is_Class_Wide_Type
(Id
: E
) return B
is
2167 return Ekind
(Id
) in Class_Wide_Kind
;
2168 end Is_Class_Wide_Type
;
2170 function Is_Composite_Type
(Id
: E
) return B
is
2172 return Ekind
(Id
) in Composite_Kind
;
2173 end Is_Composite_Type
;
2175 function Is_Concurrent_Body
(Id
: E
) return B
is
2177 return Ekind
(Id
) in
2178 Concurrent_Body_Kind
;
2179 end Is_Concurrent_Body
;
2181 function Is_Concurrent_Record_Type
(Id
: E
) return B
is
2184 end Is_Concurrent_Record_Type
;
2186 function Is_Concurrent_Type
(Id
: E
) return B
is
2188 return Ekind
(Id
) in Concurrent_Kind
;
2189 end Is_Concurrent_Type
;
2191 function Is_Decimal_Fixed_Point_Type
(Id
: E
) return B
is
2193 return Ekind
(Id
) in
2194 Decimal_Fixed_Point_Kind
;
2195 end Is_Decimal_Fixed_Point_Type
;
2197 function Is_Digits_Type
(Id
: E
) return B
is
2199 return Ekind
(Id
) in Digits_Kind
;
2202 function Is_Discrete_Or_Fixed_Point_Type
(Id
: E
) return B
is
2204 return Ekind
(Id
) in Discrete_Or_Fixed_Point_Kind
;
2205 end Is_Discrete_Or_Fixed_Point_Type
;
2207 function Is_Discrete_Type
(Id
: E
) return B
is
2209 return Ekind
(Id
) in Discrete_Kind
;
2210 end Is_Discrete_Type
;
2212 function Is_Elementary_Type
(Id
: E
) return B
is
2214 return Ekind
(Id
) in Elementary_Kind
;
2215 end Is_Elementary_Type
;
2217 function Is_Entry
(Id
: E
) return B
is
2219 return Ekind
(Id
) in Entry_Kind
;
2222 function Is_Enumeration_Type
(Id
: E
) return B
is
2224 return Ekind
(Id
) in
2226 end Is_Enumeration_Type
;
2228 function Is_Fixed_Point_Type
(Id
: E
) return B
is
2230 return Ekind
(Id
) in
2232 end Is_Fixed_Point_Type
;
2234 function Is_Floating_Point_Type
(Id
: E
) return B
is
2236 return Ekind
(Id
) in Float_Kind
;
2237 end Is_Floating_Point_Type
;
2239 function Is_Formal
(Id
: E
) return B
is
2241 return Ekind
(Id
) in Formal_Kind
;
2244 function Is_Generic_Subprogram
(Id
: E
) return B
is
2246 return Ekind
(Id
) in Generic_Subprogram_Kind
;
2247 end Is_Generic_Subprogram
;
2249 function Is_Generic_Unit
(Id
: E
) return B
is
2251 return Ekind
(Id
) in Generic_Unit_Kind
;
2252 end Is_Generic_Unit
;
2254 function Is_Incomplete_Or_Private_Type
(Id
: E
) return B
is
2256 return Ekind
(Id
) in
2257 Incomplete_Or_Private_Kind
;
2258 end Is_Incomplete_Or_Private_Type
;
2260 function Is_Integer_Type
(Id
: E
) return B
is
2262 return Ekind
(Id
) in Integer_Kind
;
2263 end Is_Integer_Type
;
2265 function Is_Modular_Integer_Type
(Id
: E
) return B
is
2267 return Ekind
(Id
) in
2268 Modular_Integer_Kind
;
2269 end Is_Modular_Integer_Type
;
2271 function Is_Named_Number
(Id
: E
) return B
is
2273 return Ekind
(Id
) in Named_Kind
;
2274 end Is_Named_Number
;
2276 function Is_Numeric_Type
(Id
: E
) return B
is
2278 return Ekind
(Id
) in Numeric_Kind
;
2279 end Is_Numeric_Type
;
2281 function Is_Object
(Id
: E
) return B
is
2283 return Ekind
(Id
) in Object_Kind
;
2286 function Is_Ordinary_Fixed_Point_Type
(Id
: E
) return B
is
2288 return Ekind
(Id
) in
2289 Ordinary_Fixed_Point_Kind
;
2290 end Is_Ordinary_Fixed_Point_Type
;
2292 function Is_Overloadable
(Id
: E
) return B
is
2294 return Ekind
(Id
) in Overloadable_Kind
;
2295 end Is_Overloadable
;
2297 function Is_Private_Type
(Id
: E
) return B
is
2299 return Ekind
(Id
) in Private_Kind
;
2300 end Is_Private_Type
;
2302 function Is_Protected_Type
(Id
: E
) return B
is
2304 return Ekind
(Id
) in Protected_Kind
;
2305 end Is_Protected_Type
;
2307 function Is_Real_Type
(Id
: E
) return B
is
2309 return Ekind
(Id
) in Real_Kind
;
2312 function Is_Record_Type
(Id
: E
) return B
is
2314 return Ekind
(Id
) in Record_Kind
;
2317 function Is_Scalar_Type
(Id
: E
) return B
is
2319 return Ekind
(Id
) in Scalar_Kind
;
2322 function Is_Signed_Integer_Type
(Id
: E
) return B
is
2324 return Ekind
(Id
) in
2325 Signed_Integer_Kind
;
2326 end Is_Signed_Integer_Type
;
2328 function Is_Subprogram
(Id
: E
) return B
is
2330 return Ekind
(Id
) in Subprogram_Kind
;
2333 function Is_Task_Type
(Id
: E
) return B
is
2335 return Ekind
(Id
) in Task_Kind
;
2338 function Is_Type
(Id
: E
) return B
is
2340 return Ekind
(Id
) in Type_Kind
;
2343 ------------------------------
2344 -- Attribute Set Procedures --
2345 ------------------------------
2347 procedure Set_Accept_Address
(Id
: E
; V
: L
) is
2349 Set_Elist21
(Id
, V
);
2350 end Set_Accept_Address
;
2352 procedure Set_Access_Disp_Table
(Id
: E
; V
: E
) is
2354 pragma Assert
(Is_Tagged_Type
(Id
) and then Id
= Base_Type
(Id
));
2356 end Set_Access_Disp_Table
;
2358 procedure Set_Associated_Final_Chain
(Id
: E
; V
: E
) is
2360 pragma Assert
(Is_Access_Type
(Id
));
2362 end Set_Associated_Final_Chain
;
2364 procedure Set_Associated_Formal_Package
(Id
: E
; V
: E
) is
2367 end Set_Associated_Formal_Package
;
2369 procedure Set_Associated_Node_For_Itype
(Id
: E
; V
: E
) is
2372 end Set_Associated_Node_For_Itype
;
2374 procedure Set_Associated_Storage_Pool
(Id
: E
; V
: E
) is
2376 pragma Assert
(Is_Access_Type
(Id
) and then Id
= Base_Type
(Id
));
2378 end Set_Associated_Storage_Pool
;
2380 procedure Set_Actual_Subtype
(Id
: E
; V
: E
) is
2383 (Ekind
(Id
) = E_Constant
2384 or else Ekind
(Id
) = E_Variable
2385 or else Ekind
(Id
) = E_Generic_In_Out_Parameter
2386 or else Ekind
(Id
) in E_In_Parameter
.. E_In_Out_Parameter
);
2388 end Set_Actual_Subtype
;
2390 procedure Set_Address_Taken
(Id
: E
; V
: B
:= True) is
2392 Set_Flag104
(Id
, V
);
2393 end Set_Address_Taken
;
2395 procedure Set_Alias
(Id
: E
; V
: E
) is
2398 (Is_Overloadable
(Id
) or else Ekind
(Id
) = E_Subprogram_Type
);
2402 procedure Set_Alignment
(Id
: E
; V
: U
) is
2404 pragma Assert
(Is_Type
(Id
)
2405 or else Is_Formal
(Id
)
2406 or else Ekind
(Id
) = E_Loop_Parameter
2407 or else Ekind
(Id
) = E_Constant
2408 or else Ekind
(Id
) = E_Exception
2409 or else Ekind
(Id
) = E_Variable
);
2413 procedure Set_Barrier_Function
(Id
: E
; V
: N
) is
2415 pragma Assert
(Is_Entry
(Id
));
2417 end Set_Barrier_Function
;
2419 procedure Set_Block_Node
(Id
: E
; V
: N
) is
2421 pragma Assert
(Ekind
(Id
) = E_Block
);
2425 procedure Set_Body_Entity
(Id
: E
; V
: E
) is
2428 (Ekind
(Id
) = E_Package
or else Ekind
(Id
) = E_Generic_Package
);
2430 end Set_Body_Entity
;
2432 procedure Set_Body_Needed_For_SAL
(Id
: E
; V
: B
:= True) is
2435 (Ekind
(Id
) = E_Package
2436 or else Is_Subprogram
(Id
)
2437 or else Is_Generic_Unit
(Id
));
2439 end Set_Body_Needed_For_SAL
;
2441 procedure Set_C_Pass_By_Copy
(Id
: E
; V
: B
:= True) is
2443 pragma Assert
(Is_Record_Type
(Id
) and then Id
= Base_Type
(Id
));
2444 Set_Flag125
(Id
, V
);
2445 end Set_C_Pass_By_Copy
;
2447 procedure Set_Can_Never_Be_Null
(Id
: E
; V
: B
:= True) is
2450 end Set_Can_Never_Be_Null
;
2452 procedure Set_Checks_May_Be_Suppressed
(Id
: E
; V
: B
:= True) is
2455 end Set_Checks_May_Be_Suppressed
;
2457 procedure Set_Class_Wide_Type
(Id
: E
; V
: E
) is
2459 pragma Assert
(Is_Type
(Id
));
2461 end Set_Class_Wide_Type
;
2463 procedure Set_Cloned_Subtype
(Id
: E
; V
: E
) is
2466 (Ekind
(Id
) = E_Record_Subtype
2467 or else Ekind
(Id
) = E_Class_Wide_Subtype
);
2469 end Set_Cloned_Subtype
;
2471 procedure Set_Component_Bit_Offset
(Id
: E
; V
: U
) is
2474 (Ekind
(Id
) = E_Component
or else Ekind
(Id
) = E_Discriminant
);
2476 end Set_Component_Bit_Offset
;
2478 procedure Set_Component_Clause
(Id
: E
; V
: N
) is
2481 (Ekind
(Id
) = E_Component
or else Ekind
(Id
) = E_Discriminant
);
2483 end Set_Component_Clause
;
2485 procedure Set_Component_Size
(Id
: E
; V
: U
) is
2487 pragma Assert
(Is_Array_Type
(Id
) and then Id
= Base_Type
(Id
));
2489 end Set_Component_Size
;
2491 procedure Set_Component_Type
(Id
: E
; V
: E
) is
2493 pragma Assert
(Is_Array_Type
(Id
) and then Id
= Base_Type
(Id
));
2495 end Set_Component_Type
;
2497 procedure Set_Corresponding_Concurrent_Type
(Id
: E
; V
: E
) is
2500 (Ekind
(Id
) = E_Record_Type
and then Is_Concurrent_Type
(V
));
2502 end Set_Corresponding_Concurrent_Type
;
2504 procedure Set_Corresponding_Discriminant
(Id
: E
; V
: E
) is
2506 pragma Assert
(Ekind
(Id
) = E_Discriminant
);
2508 end Set_Corresponding_Discriminant
;
2510 procedure Set_Corresponding_Equality
(Id
: E
; V
: E
) is
2513 (Ekind
(Id
) = E_Function
2514 and then not Comes_From_Source
(Id
)
2515 and then Chars
(Id
) = Name_Op_Ne
);
2517 end Set_Corresponding_Equality
;
2519 procedure Set_Corresponding_Record_Type
(Id
: E
; V
: E
) is
2521 pragma Assert
(Is_Concurrent_Type
(Id
));
2523 end Set_Corresponding_Record_Type
;
2525 procedure Set_Corresponding_Remote_Type
(Id
: E
; V
: E
) is
2528 end Set_Corresponding_Remote_Type
;
2530 procedure Set_Current_Value
(Id
: E
; V
: E
) is
2532 pragma Assert
(Ekind
(Id
) in Object_Kind
or else Ekind
(Id
) = E_Void
);
2534 end Set_Current_Value
;
2536 procedure Set_CR_Discriminant
(Id
: E
; V
: E
) is
2539 end Set_CR_Discriminant
;
2541 procedure Set_Debug_Info_Off
(Id
: E
; V
: B
:= True) is
2543 Set_Flag166
(Id
, V
);
2544 end Set_Debug_Info_Off
;
2546 procedure Set_Debug_Renaming_Link
(Id
: E
; V
: E
) is
2549 end Set_Debug_Renaming_Link
;
2551 procedure Set_Default_Expr_Function
(Id
: E
; V
: E
) is
2553 pragma Assert
(Is_Formal
(Id
));
2555 end Set_Default_Expr_Function
;
2557 procedure Set_Default_Expressions_Processed
(Id
: E
; V
: B
:= True) is
2559 Set_Flag108
(Id
, V
);
2560 end Set_Default_Expressions_Processed
;
2562 procedure Set_Default_Value
(Id
: E
; V
: N
) is
2564 pragma Assert
(Is_Formal
(Id
));
2566 end Set_Default_Value
;
2568 procedure Set_Delay_Cleanups
(Id
: E
; V
: B
:= True) is
2572 or else Is_Task_Type
(Id
)
2573 or else Ekind
(Id
) = E_Block
);
2574 Set_Flag114
(Id
, V
);
2575 end Set_Delay_Cleanups
;
2577 procedure Set_Delay_Subprogram_Descriptors
(Id
: E
; V
: B
:= True) is
2581 or else Ekind
(Id
) = E_Package
2582 or else Ekind
(Id
) = E_Package_Body
);
2584 end Set_Delay_Subprogram_Descriptors
;
2586 procedure Set_Delta_Value
(Id
: E
; V
: R
) is
2588 pragma Assert
(Is_Fixed_Point_Type
(Id
));
2589 Set_Ureal18
(Id
, V
);
2590 end Set_Delta_Value
;
2592 procedure Set_Dependent_Instances
(Id
: E
; V
: L
) is
2594 pragma Assert
(Is_Generic_Instance
(Id
));
2596 end Set_Dependent_Instances
;
2598 procedure Set_Depends_On_Private
(Id
: E
; V
: B
:= True) is
2600 pragma Assert
(Nkind
(Id
) in N_Entity
);
2602 end Set_Depends_On_Private
;
2604 procedure Set_Digits_Value
(Id
: E
; V
: U
) is
2607 (Is_Floating_Point_Type
(Id
)
2608 or else Is_Decimal_Fixed_Point_Type
(Id
));
2610 end Set_Digits_Value
;
2612 procedure Set_Directly_Designated_Type
(Id
: E
; V
: E
) is
2615 end Set_Directly_Designated_Type
;
2617 procedure Set_Discard_Names
(Id
: E
; V
: B
:= True) is
2620 end Set_Discard_Names
;
2622 procedure Set_Discriminal
(Id
: E
; V
: E
) is
2624 pragma Assert
(Ekind
(Id
) = E_Discriminant
);
2626 end Set_Discriminal
;
2628 procedure Set_Discriminal_Link
(Id
: E
; V
: E
) is
2631 end Set_Discriminal_Link
;
2633 procedure Set_Discriminant_Checking_Func
(Id
: E
; V
: E
) is
2635 pragma Assert
(Ekind
(Id
) = E_Component
);
2637 end Set_Discriminant_Checking_Func
;
2639 procedure Set_Discriminant_Constraint
(Id
: E
; V
: L
) is
2641 pragma Assert
(Nkind
(Id
) in N_Entity
);
2642 Set_Elist21
(Id
, V
);
2643 end Set_Discriminant_Constraint
;
2645 procedure Set_Discriminant_Default_Value
(Id
: E
; V
: N
) is
2648 end Set_Discriminant_Default_Value
;
2650 procedure Set_Discriminant_Number
(Id
: E
; V
: U
) is
2653 end Set_Discriminant_Number
;
2655 procedure Set_DT_Entry_Count
(Id
: E
; V
: U
) is
2657 pragma Assert
(Ekind
(Id
) = E_Component
);
2659 end Set_DT_Entry_Count
;
2661 procedure Set_DT_Position
(Id
: E
; V
: U
) is
2663 pragma Assert
(Ekind
(Id
) = E_Function
or else Ekind
(Id
) = E_Procedure
);
2665 end Set_DT_Position
;
2667 procedure Set_DTC_Entity
(Id
: E
; V
: E
) is
2670 (Ekind
(Id
) = E_Function
or else Ekind
(Id
) = E_Procedure
);
2674 procedure Set_Elaborate_All_Desirable
(Id
: E
; V
: B
:= True) is
2676 Set_Flag146
(Id
, V
);
2677 end Set_Elaborate_All_Desirable
;
2679 procedure Set_Elaboration_Entity
(Id
: E
; V
: E
) is
2684 Ekind
(Id
) = E_Package
2686 Is_Generic_Unit
(Id
));
2688 end Set_Elaboration_Entity
;
2690 procedure Set_Elaboration_Entity_Required
(Id
: E
; V
: B
:= True) is
2695 Ekind
(Id
) = E_Package
2697 Is_Generic_Unit
(Id
));
2698 Set_Flag174
(Id
, V
);
2699 end Set_Elaboration_Entity_Required
;
2701 procedure Set_Enclosing_Scope
(Id
: E
; V
: E
) is
2704 end Set_Enclosing_Scope
;
2706 procedure Set_Entry_Accepted
(Id
: E
; V
: B
:= True) is
2708 pragma Assert
(Is_Entry
(Id
));
2709 Set_Flag152
(Id
, V
);
2710 end Set_Entry_Accepted
;
2712 procedure Set_Entry_Bodies_Array
(Id
: E
; V
: E
) is
2715 end Set_Entry_Bodies_Array
;
2717 procedure Set_Entry_Cancel_Parameter
(Id
: E
; V
: E
) is
2720 end Set_Entry_Cancel_Parameter
;
2722 procedure Set_Entry_Component
(Id
: E
; V
: E
) is
2725 end Set_Entry_Component
;
2727 procedure Set_Entry_Formal
(Id
: E
; V
: E
) is
2730 end Set_Entry_Formal
;
2732 procedure Set_Entry_Index_Constant
(Id
: E
; V
: E
) is
2734 pragma Assert
(Ekind
(Id
) = E_Entry_Index_Parameter
);
2736 end Set_Entry_Index_Constant
;
2738 procedure Set_Entry_Parameters_Type
(Id
: E
; V
: E
) is
2741 end Set_Entry_Parameters_Type
;
2743 procedure Set_Enum_Pos_To_Rep
(Id
: E
; V
: E
) is
2745 pragma Assert
(Ekind
(Id
) = E_Enumeration_Type
);
2747 end Set_Enum_Pos_To_Rep
;
2749 procedure Set_Enumeration_Pos
(Id
: E
; V
: U
) is
2751 pragma Assert
(Ekind
(Id
) = E_Enumeration_Literal
);
2753 end Set_Enumeration_Pos
;
2755 procedure Set_Enumeration_Rep
(Id
: E
; V
: U
) is
2757 pragma Assert
(Ekind
(Id
) = E_Enumeration_Literal
);
2759 end Set_Enumeration_Rep
;
2761 procedure Set_Enumeration_Rep_Expr
(Id
: E
; V
: N
) is
2763 pragma Assert
(Ekind
(Id
) = E_Enumeration_Literal
);
2765 end Set_Enumeration_Rep_Expr
;
2767 procedure Set_Equivalent_Type
(Id
: E
; V
: E
) is
2770 (Ekind
(Id
) = E_Class_Wide_Type
or else
2771 Ekind
(Id
) = E_Class_Wide_Subtype
or else
2772 Ekind
(Id
) = E_Access_Protected_Subprogram_Type
or else
2773 Ekind
(Id
) = E_Access_Subprogram_Type
or else
2774 Ekind
(Id
) = E_Exception_Type
);
2776 end Set_Equivalent_Type
;
2778 procedure Set_Esize
(Id
: E
; V
: U
) is
2783 procedure Set_Exception_Code
(Id
: E
; V
: U
) is
2785 pragma Assert
(Ekind
(Id
) = E_Exception
);
2787 end Set_Exception_Code
;
2789 procedure Set_Extra_Accessibility
(Id
: E
; V
: E
) is
2791 pragma Assert
(Is_Formal
(Id
) or else Ekind
(Id
) = E_Variable
);
2793 end Set_Extra_Accessibility
;
2795 procedure Set_Extra_Constrained
(Id
: E
; V
: E
) is
2797 pragma Assert
(Is_Formal
(Id
) or else Ekind
(Id
) = E_Variable
);
2799 end Set_Extra_Constrained
;
2801 procedure Set_Extra_Formal
(Id
: E
; V
: E
) is
2804 end Set_Extra_Formal
;
2806 procedure Set_Finalization_Chain_Entity
(Id
: E
; V
: E
) is
2809 end Set_Finalization_Chain_Entity
;
2811 procedure Set_Finalize_Storage_Only
(Id
: E
; V
: B
:= True) is
2813 pragma Assert
(Is_Type
(Id
) and then Id
= Base_Type
(Id
));
2814 Set_Flag158
(Id
, V
);
2815 end Set_Finalize_Storage_Only
;
2817 procedure Set_First_Entity
(Id
: E
; V
: E
) is
2820 end Set_First_Entity
;
2822 procedure Set_First_Index
(Id
: E
; V
: N
) is
2825 end Set_First_Index
;
2827 procedure Set_First_Literal
(Id
: E
; V
: E
) is
2830 end Set_First_Literal
;
2832 procedure Set_First_Optional_Parameter
(Id
: E
; V
: E
) is
2835 (Ekind
(Id
) = E_Function
or else Ekind
(Id
) = E_Procedure
);
2837 end Set_First_Optional_Parameter
;
2839 procedure Set_First_Private_Entity
(Id
: E
; V
: E
) is
2841 pragma Assert
(Nkind
(Id
) in N_Entity
);
2843 end Set_First_Private_Entity
;
2845 procedure Set_First_Rep_Item
(Id
: E
; V
: N
) is
2848 end Set_First_Rep_Item
;
2850 procedure Set_Freeze_Node
(Id
: E
; V
: N
) is
2853 end Set_Freeze_Node
;
2855 procedure Set_From_With_Type
(Id
: E
; V
: B
:= True) is
2859 or else Ekind
(Id
) = E_Package
);
2860 Set_Flag159
(Id
, V
);
2861 end Set_From_With_Type
;
2863 procedure Set_Full_View
(Id
: E
; V
: E
) is
2865 pragma Assert
(Is_Type
(Id
) or else Ekind
(Id
) = E_Constant
);
2869 procedure Set_Function_Returns_With_DSP
(Id
: E
; V
: B
:= True) is
2872 (Is_Subprogram
(Id
) or else Ekind
(Id
) = E_Subprogram_Type
);
2873 Set_Flag169
(Id
, V
);
2874 end Set_Function_Returns_With_DSP
;
2876 procedure Set_Generic_Homonym
(Id
: E
; V
: E
) is
2879 end Set_Generic_Homonym
;
2881 procedure Set_Generic_Renamings
(Id
: E
; V
: L
) is
2883 Set_Elist23
(Id
, V
);
2884 end Set_Generic_Renamings
;
2886 procedure Set_Handler_Records
(Id
: E
; V
: S
) is
2889 end Set_Handler_Records
;
2891 procedure Set_Has_Aliased_Components
(Id
: E
; V
: B
:= True) is
2893 pragma Assert
(Base_Type
(Id
) = Id
);
2894 Set_Flag135
(Id
, V
);
2895 end Set_Has_Aliased_Components
;
2897 procedure Set_Has_Alignment_Clause
(Id
: E
; V
: B
:= True) is
2900 end Set_Has_Alignment_Clause
;
2902 procedure Set_Has_All_Calls_Remote
(Id
: E
; V
: B
:= True) is
2905 end Set_Has_All_Calls_Remote
;
2907 procedure Set_Has_Atomic_Components
(Id
: E
; V
: B
:= True) is
2909 pragma Assert
(not Is_Type
(Id
) or else Base_Type
(Id
) = Id
);
2911 end Set_Has_Atomic_Components
;
2913 procedure Set_Has_Biased_Representation
(Id
: E
; V
: B
:= True) is
2916 ((V
= False) or else (Is_Discrete_Type
(Id
) or Is_Object
(Id
)));
2917 Set_Flag139
(Id
, V
);
2918 end Set_Has_Biased_Representation
;
2920 procedure Set_Has_Completion
(Id
: E
; V
: B
:= True) is
2923 end Set_Has_Completion
;
2925 procedure Set_Has_Completion_In_Body
(Id
: E
; V
: B
:= True) is
2927 pragma Assert
(Ekind
(Id
) = E_Incomplete_Type
);
2929 end Set_Has_Completion_In_Body
;
2931 procedure Set_Has_Complex_Representation
(Id
: E
; V
: B
:= True) is
2933 pragma Assert
(Ekind
(Id
) = E_Record_Type
);
2934 Set_Flag140
(Id
, V
);
2935 end Set_Has_Complex_Representation
;
2937 procedure Set_Has_Component_Size_Clause
(Id
: E
; V
: B
:= True) is
2939 pragma Assert
(Ekind
(Id
) = E_Array_Type
);
2941 end Set_Has_Component_Size_Clause
;
2943 procedure Set_Has_Contiguous_Rep
(Id
: E
; V
: B
:= True) is
2945 Set_Flag181
(Id
, V
);
2946 end Set_Has_Contiguous_Rep
;
2948 procedure Set_Has_Controlled_Component
(Id
: E
; V
: B
:= True) is
2950 pragma Assert
(Base_Type
(Id
) = Id
);
2952 end Set_Has_Controlled_Component
;
2954 procedure Set_Has_Controlling_Result
(Id
: E
; V
: B
:= True) is
2957 end Set_Has_Controlling_Result
;
2959 procedure Set_Has_Convention_Pragma
(Id
: E
; V
: B
:= True) is
2961 Set_Flag119
(Id
, V
);
2962 end Set_Has_Convention_Pragma
;
2964 procedure Set_Has_Delayed_Freeze
(Id
: E
; V
: B
:= True) is
2966 pragma Assert
(Nkind
(Id
) in N_Entity
);
2968 end Set_Has_Delayed_Freeze
;
2970 procedure Set_Has_Discriminants
(Id
: E
; V
: B
:= True) is
2972 pragma Assert
(Nkind
(Id
) in N_Entity
);
2974 end Set_Has_Discriminants
;
2976 procedure Set_Has_Enumeration_Rep_Clause
(Id
: E
; V
: B
:= True) is
2978 pragma Assert
(Is_Enumeration_Type
(Id
));
2980 end Set_Has_Enumeration_Rep_Clause
;
2982 procedure Set_Has_Exit
(Id
: E
; V
: B
:= True) is
2987 procedure Set_Has_External_Tag_Rep_Clause
(Id
: E
; V
: B
:= True) is
2989 pragma Assert
(Is_Tagged_Type
(Id
));
2990 Set_Flag110
(Id
, V
);
2991 end Set_Has_External_Tag_Rep_Clause
;
2993 procedure Set_Has_Forward_Instantiation
(Id
: E
; V
: B
:= True) is
2995 Set_Flag175
(Id
, V
);
2996 end Set_Has_Forward_Instantiation
;
2998 procedure Set_Has_Fully_Qualified_Name
(Id
: E
; V
: B
:= True) is
3000 Set_Flag173
(Id
, V
);
3001 end Set_Has_Fully_Qualified_Name
;
3003 procedure Set_Has_Gigi_Rep_Item
(Id
: E
; V
: B
:= True) is
3006 end Set_Has_Gigi_Rep_Item
;
3008 procedure Set_Has_Homonym
(Id
: E
; V
: B
:= True) is
3011 end Set_Has_Homonym
;
3013 procedure Set_Has_Machine_Radix_Clause
(Id
: E
; V
: B
:= True) is
3015 pragma Assert
(Is_Decimal_Fixed_Point_Type
(Id
));
3017 end Set_Has_Machine_Radix_Clause
;
3019 procedure Set_Has_Master_Entity
(Id
: E
; V
: B
:= True) is
3022 end Set_Has_Master_Entity
;
3024 procedure Set_Has_Missing_Return
(Id
: E
; V
: B
:= True) is
3027 (Ekind
(Id
) = E_Function
or else Ekind
(Id
) = E_Generic_Function
);
3028 Set_Flag142
(Id
, V
);
3029 end Set_Has_Missing_Return
;
3031 procedure Set_Has_Nested_Block_With_Handler
(Id
: E
; V
: B
:= True) is
3033 Set_Flag101
(Id
, V
);
3034 end Set_Has_Nested_Block_With_Handler
;
3036 procedure Set_Has_Non_Standard_Rep
(Id
: E
; V
: B
:= True) is
3038 pragma Assert
(Base_Type
(Id
) = Id
);
3040 end Set_Has_Non_Standard_Rep
;
3042 procedure Set_Has_Object_Size_Clause
(Id
: E
; V
: B
:= True) is
3044 pragma Assert
(Is_Type
(Id
));
3045 Set_Flag172
(Id
, V
);
3046 end Set_Has_Object_Size_Clause
;
3048 procedure Set_Has_Per_Object_Constraint
(Id
: E
; V
: B
:= True) is
3050 Set_Flag154
(Id
, V
);
3051 end Set_Has_Per_Object_Constraint
;
3053 procedure Set_Has_Pragma_Controlled
(Id
: E
; V
: B
:= True) is
3055 pragma Assert
(Is_Access_Type
(Id
));
3056 Set_Flag27
(Base_Type
(Id
), V
);
3057 end Set_Has_Pragma_Controlled
;
3059 procedure Set_Has_Pragma_Elaborate_Body
(Id
: E
; V
: B
:= True) is
3061 Set_Flag150
(Id
, V
);
3062 end Set_Has_Pragma_Elaborate_Body
;
3064 procedure Set_Has_Pragma_Inline
(Id
: E
; V
: B
:= True) is
3066 Set_Flag157
(Id
, V
);
3067 end Set_Has_Pragma_Inline
;
3069 procedure Set_Has_Pragma_Pack
(Id
: E
; V
: B
:= True) is
3071 pragma Assert
(Is_Array_Type
(Id
) or else Is_Record_Type
(Id
));
3072 pragma Assert
(Id
= Base_Type
(Id
));
3073 Set_Flag121
(Id
, V
);
3074 end Set_Has_Pragma_Pack
;
3076 procedure Set_Has_Pragma_Pure_Function
(Id
: E
; V
: B
:= True) is
3078 pragma Assert
(Is_Subprogram
(Id
));
3079 Set_Flag179
(Id
, V
);
3080 end Set_Has_Pragma_Pure_Function
;
3082 procedure Set_Has_Pragma_Unreferenced
(Id
: E
; V
: B
:= True) is
3084 Set_Flag180
(Id
, V
);
3085 end Set_Has_Pragma_Unreferenced
;
3087 procedure Set_Has_Primitive_Operations
(Id
: E
; V
: B
:= True) is
3089 pragma Assert
(Id
= Base_Type
(Id
));
3090 Set_Flag120
(Id
, V
);
3091 end Set_Has_Primitive_Operations
;
3093 procedure Set_Has_Private_Declaration
(Id
: E
; V
: B
:= True) is
3095 Set_Flag155
(Id
, V
);
3096 end Set_Has_Private_Declaration
;
3098 procedure Set_Has_Qualified_Name
(Id
: E
; V
: B
:= True) is
3100 Set_Flag161
(Id
, V
);
3101 end Set_Has_Qualified_Name
;
3103 procedure Set_Has_Record_Rep_Clause
(Id
: E
; V
: B
:= True) is
3105 pragma Assert
(Id
= Base_Type
(Id
));
3107 end Set_Has_Record_Rep_Clause
;
3109 procedure Set_Has_Recursive_Call
(Id
: E
; V
: B
:= True) is
3111 pragma Assert
(Is_Subprogram
(Id
));
3112 Set_Flag143
(Id
, V
);
3113 end Set_Has_Recursive_Call
;
3115 procedure Set_Has_Size_Clause
(Id
: E
; V
: B
:= True) is
3118 end Set_Has_Size_Clause
;
3120 procedure Set_Has_Small_Clause
(Id
: E
; V
: B
:= True) is
3123 end Set_Has_Small_Clause
;
3125 procedure Set_Has_Specified_Layout
(Id
: E
; V
: B
:= True) is
3127 pragma Assert
(Id
= Base_Type
(Id
));
3128 Set_Flag100
(Id
, V
);
3129 end Set_Has_Specified_Layout
;
3131 procedure Set_Has_Storage_Size_Clause
(Id
: E
; V
: B
:= True) is
3133 pragma Assert
(Is_Access_Type
(Id
) or else Is_Task_Type
(Id
));
3134 pragma Assert
(Base_Type
(Id
) = Id
);
3136 end Set_Has_Storage_Size_Clause
;
3138 procedure Set_Has_Subprogram_Descriptor
(Id
: E
; V
: B
:= True) is
3141 end Set_Has_Subprogram_Descriptor
;
3143 procedure Set_Has_Task
(Id
: E
; V
: B
:= True) is
3145 pragma Assert
(Base_Type
(Id
) = Id
);
3149 procedure Set_Has_Unchecked_Union
(Id
: E
; V
: B
:= True) is
3151 pragma Assert
(Base_Type
(Id
) = Id
);
3152 Set_Flag123
(Id
, V
);
3153 end Set_Has_Unchecked_Union
;
3155 procedure Set_Has_Unknown_Discriminants
(Id
: E
; V
: B
:= True) is
3157 pragma Assert
(Is_Type
(Id
));
3159 end Set_Has_Unknown_Discriminants
;
3161 procedure Set_Has_Volatile_Components
(Id
: E
; V
: B
:= True) is
3163 pragma Assert
(not Is_Type
(Id
) or else Base_Type
(Id
) = Id
);
3165 end Set_Has_Volatile_Components
;
3167 procedure Set_Has_Xref_Entry
(Id
: E
; V
: B
:= True) is
3169 Set_Flag182
(Id
, V
);
3170 end Set_Has_Xref_Entry
;
3172 procedure Set_Hiding_Loop_Variable
(Id
: E
; V
: E
) is
3174 pragma Assert
(Ekind
(Id
) = E_Variable
);
3176 end Set_Hiding_Loop_Variable
;
3178 procedure Set_Homonym
(Id
: E
; V
: E
) is
3180 pragma Assert
(Id
/= V
);
3184 procedure Set_In_Package_Body
(Id
: E
; V
: B
:= True) is
3187 end Set_In_Package_Body
;
3189 procedure Set_In_Private_Part
(Id
: E
; V
: B
:= True) is
3192 end Set_In_Private_Part
;
3194 procedure Set_In_Use
(Id
: E
; V
: B
:= True) is
3196 pragma Assert
(Nkind
(Id
) in N_Entity
);
3200 procedure Set_Inner_Instances
(Id
: E
; V
: L
) is
3202 Set_Elist23
(Id
, V
);
3203 end Set_Inner_Instances
;
3205 procedure Set_Interface_Name
(Id
: E
; V
: N
) is
3208 end Set_Interface_Name
;
3210 procedure Set_Is_Abstract
(Id
: E
; V
: B
:= True) is
3213 end Set_Is_Abstract
;
3215 procedure Set_Is_Access_Constant
(Id
: E
; V
: B
:= True) is
3217 pragma Assert
(Is_Access_Type
(Id
));
3219 end Set_Is_Access_Constant
;
3221 procedure Set_Is_Aliased
(Id
: E
; V
: B
:= True) is
3223 pragma Assert
(Nkind
(Id
) in N_Entity
);
3227 procedure Set_Is_AST_Entry
(Id
: E
; V
: B
:= True) is
3229 pragma Assert
(Is_Entry
(Id
));
3230 Set_Flag132
(Id
, V
);
3231 end Set_Is_AST_Entry
;
3233 procedure Set_Is_Asynchronous
(Id
: E
; V
: B
:= True) is
3236 (Ekind
(Id
) = E_Procedure
or else Is_Type
(Id
));
3238 end Set_Is_Asynchronous
;
3240 procedure Set_Is_Atomic
(Id
: E
; V
: B
:= True) is
3245 procedure Set_Is_Bit_Packed_Array
(Id
: E
; V
: B
:= True) is
3247 pragma Assert
((not V
)
3248 or else (Is_Array_Type
(Id
) and then Id
= Base_Type
(Id
)));
3250 Set_Flag122
(Id
, V
);
3251 end Set_Is_Bit_Packed_Array
;
3253 procedure Set_Is_Called
(Id
: E
; V
: B
:= True) is
3256 (Ekind
(Id
) = E_Procedure
or else Ekind
(Id
) = E_Function
);
3257 Set_Flag102
(Id
, V
);
3260 procedure Set_Is_Character_Type
(Id
: E
; V
: B
:= True) is
3263 end Set_Is_Character_Type
;
3265 procedure Set_Is_Child_Unit
(Id
: E
; V
: B
:= True) is
3268 end Set_Is_Child_Unit
;
3270 procedure Set_Is_Class_Wide_Equivalent_Type
(Id
: E
; V
: B
:= True) is
3273 end Set_Is_Class_Wide_Equivalent_Type
;
3275 procedure Set_Is_Compilation_Unit
(Id
: E
; V
: B
:= True) is
3277 Set_Flag149
(Id
, V
);
3278 end Set_Is_Compilation_Unit
;
3280 procedure Set_Is_Completely_Hidden
(Id
: E
; V
: B
:= True) is
3282 pragma Assert
(Ekind
(Id
) = E_Discriminant
);
3283 Set_Flag103
(Id
, V
);
3284 end Set_Is_Completely_Hidden
;
3286 procedure Set_Is_Concurrent_Record_Type
(Id
: E
; V
: B
:= True) is
3289 end Set_Is_Concurrent_Record_Type
;
3291 procedure Set_Is_Constr_Subt_For_U_Nominal
(Id
: E
; V
: B
:= True) is
3294 end Set_Is_Constr_Subt_For_U_Nominal
;
3296 procedure Set_Is_Constr_Subt_For_UN_Aliased
(Id
: E
; V
: B
:= True) is
3298 Set_Flag141
(Id
, V
);
3299 end Set_Is_Constr_Subt_For_UN_Aliased
;
3301 procedure Set_Is_Constrained
(Id
: E
; V
: B
:= True) is
3303 pragma Assert
(Nkind
(Id
) in N_Entity
);
3305 end Set_Is_Constrained
;
3307 procedure Set_Is_Constructor
(Id
: E
; V
: B
:= True) is
3310 end Set_Is_Constructor
;
3312 procedure Set_Is_Controlled
(Id
: E
; V
: B
:= True) is
3314 pragma Assert
(Id
= Base_Type
(Id
));
3316 end Set_Is_Controlled
;
3318 procedure Set_Is_Controlling_Formal
(Id
: E
; V
: B
:= True) is
3320 pragma Assert
(Is_Formal
(Id
));
3322 end Set_Is_Controlling_Formal
;
3324 procedure Set_Is_CPP_Class
(Id
: E
; V
: B
:= True) is
3327 end Set_Is_CPP_Class
;
3329 procedure Set_Is_Discrim_SO_Function
(Id
: E
; V
: B
:= True) is
3331 Set_Flag176
(Id
, V
);
3332 end Set_Is_Discrim_SO_Function
;
3334 procedure Set_Is_Dispatching_Operation
(Id
: E
; V
: B
:= True) is
3339 Is_Overloadable
(Id
)
3341 Ekind
(Id
) = E_Subprogram_Type
);
3344 end Set_Is_Dispatching_Operation
;
3346 procedure Set_Is_Eliminated
(Id
: E
; V
: B
:= True) is
3348 Set_Flag124
(Id
, V
);
3349 end Set_Is_Eliminated
;
3351 procedure Set_Is_Entry_Formal
(Id
: E
; V
: B
:= True) is
3354 end Set_Is_Entry_Formal
;
3356 procedure Set_Is_Exported
(Id
: E
; V
: B
:= True) is
3359 end Set_Is_Exported
;
3361 procedure Set_Is_First_Subtype
(Id
: E
; V
: B
:= True) is
3364 end Set_Is_First_Subtype
;
3366 procedure Set_Is_For_Access_Subtype
(Id
: E
; V
: B
:= True) is
3369 (Ekind
(Id
) = E_Record_Subtype
3371 Ekind
(Id
) = E_Private_Subtype
);
3372 Set_Flag118
(Id
, V
);
3373 end Set_Is_For_Access_Subtype
;
3375 procedure Set_Is_Formal_Subprogram
(Id
: E
; V
: B
:= True) is
3377 Set_Flag111
(Id
, V
);
3378 end Set_Is_Formal_Subprogram
;
3380 procedure Set_Is_Frozen
(Id
: E
; V
: B
:= True) is
3382 pragma Assert
(Nkind
(Id
) in N_Entity
);
3386 procedure Set_Is_Generic_Actual_Type
(Id
: E
; V
: B
:= True) is
3388 pragma Assert
(Is_Type
(Id
));
3390 end Set_Is_Generic_Actual_Type
;
3392 procedure Set_Is_Generic_Instance
(Id
: E
; V
: B
:= True) is
3394 Set_Flag130
(Id
, V
);
3395 end Set_Is_Generic_Instance
;
3397 procedure Set_Is_Generic_Type
(Id
: E
; V
: B
:= True) is
3399 pragma Assert
(Nkind
(Id
) in N_Entity
);
3401 end Set_Is_Generic_Type
;
3403 procedure Set_Is_Hidden
(Id
: E
; V
: B
:= True) is
3408 procedure Set_Is_Hidden_Open_Scope
(Id
: E
; V
: B
:= True) is
3410 Set_Flag171
(Id
, V
);
3411 end Set_Is_Hidden_Open_Scope
;
3413 procedure Set_Is_Immediately_Visible
(Id
: E
; V
: B
:= True) is
3415 pragma Assert
(Nkind
(Id
) in N_Entity
);
3417 end Set_Is_Immediately_Visible
;
3419 procedure Set_Is_Imported
(Id
: E
; V
: B
:= True) is
3422 end Set_Is_Imported
;
3424 procedure Set_Is_Inlined
(Id
: E
; V
: B
:= True) is
3429 procedure Set_Is_Instantiated
(Id
: E
; V
: B
:= True) is
3431 Set_Flag126
(Id
, V
);
3432 end Set_Is_Instantiated
;
3434 procedure Set_Is_Internal
(Id
: E
; V
: B
:= True) is
3436 pragma Assert
(Nkind
(Id
) in N_Entity
);
3438 end Set_Is_Internal
;
3440 procedure Set_Is_Interrupt_Handler
(Id
: E
; V
: B
:= True) is
3442 pragma Assert
(Nkind
(Id
) in N_Entity
);
3444 end Set_Is_Interrupt_Handler
;
3446 procedure Set_Is_Intrinsic_Subprogram
(Id
: E
; V
: B
:= True) is
3449 end Set_Is_Intrinsic_Subprogram
;
3451 procedure Set_Is_Itype
(Id
: E
; V
: B
:= True) is
3456 procedure Set_Is_Known_Non_Null
(Id
: E
; V
: B
:= True) is
3459 end Set_Is_Known_Non_Null
;
3461 procedure Set_Is_Known_Valid
(Id
: E
; V
: B
:= True) is
3463 Set_Flag170
(Id
, V
);
3464 end Set_Is_Known_Valid
;
3466 procedure Set_Is_Limited_Composite
(Id
: E
; V
: B
:= True) is
3468 pragma Assert
(Is_Type
(Id
));
3469 Set_Flag106
(Id
, V
);
3470 end Set_Is_Limited_Composite
;
3472 procedure Set_Is_Limited_Record
(Id
: E
; V
: B
:= True) is
3475 end Set_Is_Limited_Record
;
3477 procedure Set_Is_Machine_Code_Subprogram
(Id
: E
; V
: B
:= True) is
3479 pragma Assert
(Is_Subprogram
(Id
));
3480 Set_Flag137
(Id
, V
);
3481 end Set_Is_Machine_Code_Subprogram
;
3483 procedure Set_Is_Non_Static_Subtype
(Id
: E
; V
: B
:= True) is
3485 pragma Assert
(Is_Type
(Id
));
3486 Set_Flag109
(Id
, V
);
3487 end Set_Is_Non_Static_Subtype
;
3489 procedure Set_Is_Null_Init_Proc
(Id
: E
; V
: B
:= True) is
3491 pragma Assert
(Ekind
(Id
) = E_Procedure
);
3492 Set_Flag178
(Id
, V
);
3493 end Set_Is_Null_Init_Proc
;
3495 procedure Set_Is_Optional_Parameter
(Id
: E
; V
: B
:= True) is
3497 pragma Assert
(Is_Formal
(Id
));
3498 Set_Flag134
(Id
, V
);
3499 end Set_Is_Optional_Parameter
;
3501 procedure Set_Is_Overriding_Operation
(Id
: E
; V
: B
:= True) is
3503 pragma Assert
(Is_Subprogram
(Id
));
3505 end Set_Is_Overriding_Operation
;
3507 procedure Set_Is_Package_Body_Entity
(Id
: E
; V
: B
:= True) is
3509 Set_Flag160
(Id
, V
);
3510 end Set_Is_Package_Body_Entity
;
3512 procedure Set_Is_Packed
(Id
: E
; V
: B
:= True) is
3514 pragma Assert
(Base_Type
(Id
) = Id
);
3518 procedure Set_Is_Packed_Array_Type
(Id
: E
; V
: B
:= True) is
3520 Set_Flag138
(Id
, V
);
3521 end Set_Is_Packed_Array_Type
;
3523 procedure Set_Is_Potentially_Use_Visible
(Id
: E
; V
: B
:= True) is
3525 pragma Assert
(Nkind
(Id
) in N_Entity
);
3527 end Set_Is_Potentially_Use_Visible
;
3529 procedure Set_Is_Preelaborated
(Id
: E
; V
: B
:= True) is
3532 end Set_Is_Preelaborated
;
3534 procedure Set_Is_Private_Composite
(Id
: E
; V
: B
:= True) is
3536 pragma Assert
(Is_Type
(Id
));
3537 Set_Flag107
(Id
, V
);
3538 end Set_Is_Private_Composite
;
3540 procedure Set_Is_Private_Descendant
(Id
: E
; V
: B
:= True) is
3543 end Set_Is_Private_Descendant
;
3545 procedure Set_Is_Psected
(Id
: E
; V
: B
:= True) is
3547 Set_Flag153
(Id
, V
);
3550 procedure Set_Is_Public
(Id
: E
; V
: B
:= True) is
3552 pragma Assert
(Nkind
(Id
) in N_Entity
);
3556 procedure Set_Is_Pure
(Id
: E
; V
: B
:= True) is
3561 procedure Set_Is_Remote_Call_Interface
(Id
: E
; V
: B
:= True) is
3564 end Set_Is_Remote_Call_Interface
;
3566 procedure Set_Is_Remote_Types
(Id
: E
; V
: B
:= True) is
3569 end Set_Is_Remote_Types
;
3571 procedure Set_Is_Renaming_Of_Object
(Id
: E
; V
: B
:= True) is
3573 Set_Flag112
(Id
, V
);
3574 end Set_Is_Renaming_Of_Object
;
3576 procedure Set_Is_Shared_Passive
(Id
: E
; V
: B
:= True) is
3579 end Set_Is_Shared_Passive
;
3581 procedure Set_Is_Statically_Allocated
(Id
: E
; V
: B
:= True) is
3584 (Ekind
(Id
) = E_Exception
3585 or else Ekind
(Id
) = E_Variable
3586 or else Ekind
(Id
) = E_Constant
3587 or else Is_Type
(Id
)
3588 or else Ekind
(Id
) = E_Void
);
3590 end Set_Is_Statically_Allocated
;
3592 procedure Set_Is_Tag
(Id
: E
; V
: B
:= True) is
3594 pragma Assert
(Nkind
(Id
) in N_Entity
);
3598 procedure Set_Is_Tagged_Type
(Id
: E
; V
: B
:= True) is
3601 end Set_Is_Tagged_Type
;
3603 procedure Set_Is_Thread_Body
(Id
: E
; V
: B
:= True) is
3606 end Set_Is_Thread_Body
;
3608 procedure Set_Is_True_Constant
(Id
: E
; V
: B
:= True) is
3610 Set_Flag163
(Id
, V
);
3611 end Set_Is_True_Constant
;
3613 procedure Set_Is_Unchecked_Union
(Id
: E
; V
: B
:= True) is
3615 pragma Assert
(Base_Type
(Id
) = Id
);
3616 Set_Flag117
(Id
, V
);
3617 end Set_Is_Unchecked_Union
;
3619 procedure Set_Is_Unsigned_Type
(Id
: E
; V
: B
:= True) is
3621 pragma Assert
(Is_Discrete_Or_Fixed_Point_Type
(Id
));
3622 Set_Flag144
(Id
, V
);
3623 end Set_Is_Unsigned_Type
;
3625 procedure Set_Is_Valued_Procedure
(Id
: E
; V
: B
:= True) is
3627 pragma Assert
(Ekind
(Id
) = E_Procedure
);
3628 Set_Flag127
(Id
, V
);
3629 end Set_Is_Valued_Procedure
;
3631 procedure Set_Is_Visible_Child_Unit
(Id
: E
; V
: B
:= True) is
3633 pragma Assert
(Is_Child_Unit
(Id
));
3634 Set_Flag116
(Id
, V
);
3635 end Set_Is_Visible_Child_Unit
;
3637 procedure Set_Is_VMS_Exception
(Id
: E
; V
: B
:= True) is
3639 pragma Assert
(Ekind
(Id
) = E_Exception
);
3640 Set_Flag133
(Id
, V
);
3641 end Set_Is_VMS_Exception
;
3643 procedure Set_Is_Volatile
(Id
: E
; V
: B
:= True) is
3645 pragma Assert
(Nkind
(Id
) in N_Entity
);
3647 end Set_Is_Volatile
;
3649 procedure Set_Kill_Elaboration_Checks
(Id
: E
; V
: B
:= True) is
3652 end Set_Kill_Elaboration_Checks
;
3654 procedure Set_Kill_Range_Checks
(Id
: E
; V
: B
:= True) is
3657 end Set_Kill_Range_Checks
;
3659 procedure Set_Kill_Tag_Checks
(Id
: E
; V
: B
:= True) is
3662 end Set_Kill_Tag_Checks
;
3664 procedure Set_Last_Entity
(Id
: E
; V
: E
) is
3667 end Set_Last_Entity
;
3669 procedure Set_Limited_Views
(Id
: E
; V
: L
) is
3671 pragma Assert
(Ekind
(Id
) = E_Package
);
3672 Set_Elist23
(Id
, V
);
3673 end Set_Limited_Views
;
3675 procedure Set_Lit_Indexes
(Id
: E
; V
: E
) is
3677 pragma Assert
(Is_Enumeration_Type
(Id
) and then Root_Type
(Id
) = Id
);
3679 end Set_Lit_Indexes
;
3681 procedure Set_Lit_Strings
(Id
: E
; V
: E
) is
3683 pragma Assert
(Is_Enumeration_Type
(Id
) and then Root_Type
(Id
) = Id
);
3685 end Set_Lit_Strings
;
3687 procedure Set_Machine_Radix_10
(Id
: E
; V
: B
:= True) is
3689 pragma Assert
(Is_Decimal_Fixed_Point_Type
(Id
));
3691 end Set_Machine_Radix_10
;
3693 procedure Set_Master_Id
(Id
: E
; V
: E
) is
3698 procedure Set_Materialize_Entity
(Id
: E
; V
: B
:= True) is
3700 Set_Flag168
(Id
, V
);
3701 end Set_Materialize_Entity
;
3703 procedure Set_Mechanism
(Id
: E
; V
: M
) is
3705 pragma Assert
(Ekind
(Id
) = E_Function
or else Is_Formal
(Id
));
3706 Set_Uint8
(Id
, UI_From_Int
(V
));
3709 procedure Set_Modulus
(Id
: E
; V
: U
) is
3711 pragma Assert
(Ekind
(Id
) = E_Modular_Integer_Type
);
3715 procedure Set_Needs_Debug_Info
(Id
: E
; V
: B
:= True) is
3717 Set_Flag147
(Id
, V
);
3718 end Set_Needs_Debug_Info
;
3720 procedure Set_Needs_No_Actuals
(Id
: E
; V
: B
:= True) is
3723 (Is_Overloadable
(Id
)
3724 or else Ekind
(Id
) = E_Subprogram_Type
3725 or else Ekind
(Id
) = E_Entry_Family
);
3727 end Set_Needs_No_Actuals
;
3729 procedure Set_Never_Set_In_Source
(Id
: E
; V
: B
:= True) is
3731 Set_Flag115
(Id
, V
);
3732 end Set_Never_Set_In_Source
;
3734 procedure Set_Next_Inlined_Subprogram
(Id
: E
; V
: E
) is
3737 end Set_Next_Inlined_Subprogram
;
3739 procedure Set_No_Pool_Assigned
(Id
: E
; V
: B
:= True) is
3741 pragma Assert
(Is_Access_Type
(Id
) and then Base_Type
(Id
) = Id
);
3742 Set_Flag131
(Id
, V
);
3743 end Set_No_Pool_Assigned
;
3745 procedure Set_No_Return
(Id
: E
; V
: B
:= True) is
3748 (Ekind
(Id
) = E_Procedure
or else Ekind
(Id
) = E_Generic_Procedure
);
3749 Set_Flag113
(Id
, V
);
3752 procedure Set_No_Strict_Aliasing
(Id
: E
; V
: B
:= True) is
3754 pragma Assert
(Is_Access_Type
(Id
) and then Base_Type
(Id
) = Id
);
3755 Set_Flag136
(Id
, V
);
3756 end Set_No_Strict_Aliasing
;
3758 procedure Set_Non_Binary_Modulus
(Id
: E
; V
: B
:= True) is
3760 pragma Assert
(Ekind
(Id
) = E_Modular_Integer_Type
);
3762 end Set_Non_Binary_Modulus
;
3764 procedure Set_Non_Limited_View
(Id
: E
; V
: E
) is
3765 pragma Assert
(False
3766 or else Ekind
(Id
) = E_Incomplete_Type
);
3769 end Set_Non_Limited_View
;
3771 procedure Set_Nonzero_Is_True
(Id
: E
; V
: B
:= True) is
3774 (Root_Type
(Id
) = Standard_Boolean
3775 and then Ekind
(Id
) = E_Enumeration_Type
);
3776 Set_Flag162
(Id
, V
);
3777 end Set_Nonzero_Is_True
;
3779 procedure Set_Normalized_First_Bit
(Id
: E
; V
: U
) is
3782 (Ekind
(Id
) = E_Component
or else Ekind
(Id
) = E_Discriminant
);
3784 end Set_Normalized_First_Bit
;
3786 procedure Set_Normalized_Position
(Id
: E
; V
: U
) is
3789 (Ekind
(Id
) = E_Component
or else Ekind
(Id
) = E_Discriminant
);
3791 end Set_Normalized_Position
;
3793 procedure Set_Normalized_Position_Max
(Id
: E
; V
: U
) is
3796 (Ekind
(Id
) = E_Component
or else Ekind
(Id
) = E_Discriminant
);
3798 end Set_Normalized_Position_Max
;
3800 procedure Set_Object_Ref
(Id
: E
; V
: E
) is
3802 pragma Assert
(Ekind
(Id
) = E_Protected_Body
);
3806 procedure Set_Original_Access_Type
(Id
: E
; V
: E
) is
3809 (Ekind
(Id
) = E_Access_Subprogram_Type
3810 or else Ekind
(Id
) = E_Access_Protected_Subprogram_Type
);
3812 end Set_Original_Access_Type
;
3814 procedure Set_Original_Array_Type
(Id
: E
; V
: E
) is
3816 pragma Assert
(Is_Array_Type
(Id
) or else Is_Modular_Integer_Type
(Id
));
3818 end Set_Original_Array_Type
;
3820 procedure Set_Original_Record_Component
(Id
: E
; V
: E
) is
3823 (Ekind
(Id
) = E_Void
3824 or else Ekind
(Id
) = E_Component
3825 or else Ekind
(Id
) = E_Discriminant
);
3827 end Set_Original_Record_Component
;
3829 procedure Set_Packed_Array_Type
(Id
: E
; V
: E
) is
3831 pragma Assert
(Is_Array_Type
(Id
));
3833 end Set_Packed_Array_Type
;
3835 procedure Set_Parent_Subtype
(Id
: E
; V
: E
) is
3837 pragma Assert
(Ekind
(Id
) = E_Record_Type
);
3839 end Set_Parent_Subtype
;
3841 procedure Set_Primitive_Operations
(Id
: E
; V
: L
) is
3843 pragma Assert
(Is_Tagged_Type
(Id
));
3844 Set_Elist15
(Id
, V
);
3845 end Set_Primitive_Operations
;
3847 procedure Set_Prival
(Id
: E
; V
: E
) is
3849 pragma Assert
(Is_Protected_Private
(Id
));
3853 procedure Set_Privals_Chain
(Id
: E
; V
: L
) is
3855 pragma Assert
(Is_Overloadable
(Id
)
3856 or else Ekind
(Id
) = E_Entry_Family
);
3857 Set_Elist23
(Id
, V
);
3858 end Set_Privals_Chain
;
3860 procedure Set_Private_Dependents
(Id
: E
; V
: L
) is
3862 pragma Assert
(Is_Incomplete_Or_Private_Type
(Id
));
3863 Set_Elist18
(Id
, V
);
3864 end Set_Private_Dependents
;
3866 procedure Set_Private_View
(Id
: E
; V
: N
) is
3868 pragma Assert
(Is_Private_Type
(Id
));
3870 end Set_Private_View
;
3872 procedure Set_Protected_Body_Subprogram
(Id
: E
; V
: E
) is
3874 pragma Assert
(Is_Subprogram
(Id
) or else Is_Entry
(Id
));
3876 end Set_Protected_Body_Subprogram
;
3878 procedure Set_Protected_Formal
(Id
: E
; V
: E
) is
3880 pragma Assert
(Is_Formal
(Id
));
3882 end Set_Protected_Formal
;
3884 procedure Set_Protected_Operation
(Id
: E
; V
: N
) is
3886 pragma Assert
(Is_Protected_Private
(Id
));
3888 end Set_Protected_Operation
;
3890 procedure Set_Reachable
(Id
: E
; V
: B
:= True) is
3895 procedure Set_Referenced
(Id
: E
; V
: B
:= True) is
3897 Set_Flag156
(Id
, V
);
3900 procedure Set_Referenced_As_LHS
(Id
: E
; V
: B
:= True) is
3903 end Set_Referenced_As_LHS
;
3905 procedure Set_Referenced_Object
(Id
: E
; V
: N
) is
3907 pragma Assert
(Is_Type
(Id
));
3909 end Set_Referenced_Object
;
3911 procedure Set_Register_Exception_Call
(Id
: E
; V
: N
) is
3913 pragma Assert
(Ekind
(Id
) = E_Exception
);
3915 end Set_Register_Exception_Call
;
3917 procedure Set_Related_Array_Object
(Id
: E
; V
: E
) is
3919 pragma Assert
(Is_Array_Type
(Id
));
3921 end Set_Related_Array_Object
;
3923 procedure Set_Related_Instance
(Id
: E
; V
: E
) is
3926 (Ekind
(Id
) = E_Package
or else Ekind
(Id
) = E_Package_Body
);
3928 end Set_Related_Instance
;
3930 procedure Set_Renamed_Entity
(Id
: E
; V
: N
) is
3933 end Set_Renamed_Entity
;
3935 procedure Set_Renamed_Object
(Id
: E
; V
: N
) is
3938 end Set_Renamed_Object
;
3940 procedure Set_Renaming_Map
(Id
: E
; V
: U
) is
3943 end Set_Renaming_Map
;
3945 procedure Set_Return_Present
(Id
: E
; V
: B
:= True) is
3948 end Set_Return_Present
;
3950 procedure Set_Returns_By_Ref
(Id
: E
; V
: B
:= True) is
3953 end Set_Returns_By_Ref
;
3955 procedure Set_Reverse_Bit_Order
(Id
: E
; V
: B
:= True) is
3958 (Is_Record_Type
(Id
) and then Id
= Base_Type
(Id
));
3959 Set_Flag164
(Id
, V
);
3960 end Set_Reverse_Bit_Order
;
3962 procedure Set_RM_Size
(Id
: E
; V
: U
) is
3964 pragma Assert
(Is_Type
(Id
));
3968 procedure Set_Scalar_Range
(Id
: E
; V
: N
) is
3971 end Set_Scalar_Range
;
3973 procedure Set_Scale_Value
(Id
: E
; V
: U
) is
3976 end Set_Scale_Value
;
3978 procedure Set_Scope_Depth_Value
(Id
: E
; V
: U
) is
3980 pragma Assert
(not Is_Record_Type
(Id
));
3982 end Set_Scope_Depth_Value
;
3984 procedure Set_Sec_Stack_Needed_For_Return
(Id
: E
; V
: B
:= True) is
3986 Set_Flag167
(Id
, V
);
3987 end Set_Sec_Stack_Needed_For_Return
;
3989 procedure Set_Shadow_Entities
(Id
: E
; V
: S
) is
3992 (Ekind
(Id
) = E_Package
or else Ekind
(Id
) = E_Generic_Package
);
3994 end Set_Shadow_Entities
;
3996 procedure Set_Shared_Var_Assign_Proc
(Id
: E
; V
: E
) is
3998 pragma Assert
(Ekind
(Id
) = E_Variable
);
4000 end Set_Shared_Var_Assign_Proc
;
4002 procedure Set_Shared_Var_Read_Proc
(Id
: E
; V
: E
) is
4004 pragma Assert
(Ekind
(Id
) = E_Variable
);
4006 end Set_Shared_Var_Read_Proc
;
4008 procedure Set_Size_Check_Code
(Id
: E
; V
: N
) is
4010 pragma Assert
(Ekind
(Id
) = E_Constant
or else Ekind
(Id
) = E_Variable
);
4012 end Set_Size_Check_Code
;
4014 procedure Set_Size_Depends_On_Discriminant
(Id
: E
; V
: B
:= True) is
4016 Set_Flag177
(Id
, V
);
4017 end Set_Size_Depends_On_Discriminant
;
4019 procedure Set_Size_Known_At_Compile_Time
(Id
: E
; V
: B
:= True) is
4022 end Set_Size_Known_At_Compile_Time
;
4024 procedure Set_Small_Value
(Id
: E
; V
: R
) is
4026 pragma Assert
(Is_Fixed_Point_Type
(Id
));
4027 Set_Ureal21
(Id
, V
);
4028 end Set_Small_Value
;
4030 procedure Set_Spec_Entity
(Id
: E
; V
: E
) is
4032 pragma Assert
(Ekind
(Id
) = E_Package_Body
or else Is_Formal
(Id
));
4034 end Set_Spec_Entity
;
4036 procedure Set_Storage_Size_Variable
(Id
: E
; V
: E
) is
4038 pragma Assert
(Is_Access_Type
(Id
) or else Is_Task_Type
(Id
));
4039 pragma Assert
(Base_Type
(Id
) = Id
);
4041 end Set_Storage_Size_Variable
;
4043 procedure Set_Stored_Constraint
(Id
: E
; V
: L
) is
4045 pragma Assert
(Nkind
(Id
) in N_Entity
);
4046 Set_Elist23
(Id
, V
);
4047 end Set_Stored_Constraint
;
4049 procedure Set_Strict_Alignment
(Id
: E
; V
: B
:= True) is
4051 pragma Assert
(Base_Type
(Id
) = Id
);
4052 Set_Flag145
(Id
, V
);
4053 end Set_Strict_Alignment
;
4055 procedure Set_String_Literal_Length
(Id
: E
; V
: U
) is
4057 pragma Assert
(Ekind
(Id
) = E_String_Literal_Subtype
);
4059 end Set_String_Literal_Length
;
4061 procedure Set_String_Literal_Low_Bound
(Id
: E
; V
: N
) is
4063 pragma Assert
(Ekind
(Id
) = E_String_Literal_Subtype
);
4065 end Set_String_Literal_Low_Bound
;
4067 procedure Set_Suppress_Elaboration_Warnings
(Id
: E
; V
: B
:= True) is
4069 Set_Flag148
(Id
, V
);
4070 end Set_Suppress_Elaboration_Warnings
;
4072 procedure Set_Suppress_Init_Proc
(Id
: E
; V
: B
:= True) is
4074 pragma Assert
(Id
= Base_Type
(Id
));
4075 Set_Flag105
(Id
, V
);
4076 end Set_Suppress_Init_Proc
;
4078 procedure Set_Suppress_Style_Checks
(Id
: E
; V
: B
:= True) is
4080 Set_Flag165
(Id
, V
);
4081 end Set_Suppress_Style_Checks
;
4083 procedure Set_Treat_As_Volatile
(Id
: E
; V
: B
:= True) is
4086 end Set_Treat_As_Volatile
;
4088 procedure Set_Underlying_Full_View
(Id
: E
; V
: E
) is
4090 pragma Assert
(Ekind
(Id
) in Private_Kind
);
4092 end Set_Underlying_Full_View
;
4094 procedure Set_Unset_Reference
(Id
: E
; V
: N
) is
4097 end Set_Unset_Reference
;
4099 procedure Set_Uses_Sec_Stack
(Id
: E
; V
: B
:= True) is
4102 end Set_Uses_Sec_Stack
;
4104 procedure Set_Vax_Float
(Id
: E
; V
: B
:= True) is
4106 pragma Assert
(Id
= Base_Type
(Id
));
4107 Set_Flag151
(Id
, V
);
4110 procedure Set_Warnings_Off
(Id
: E
; V
: B
:= True) is
4113 end Set_Warnings_Off
;
4115 -----------------------------------
4116 -- Field Initialization Routines --
4117 -----------------------------------
4119 procedure Init_Alignment
(Id
: E
) is
4121 Set_Uint14
(Id
, Uint_0
);
4124 procedure Init_Alignment
(Id
: E
; V
: Int
) is
4126 Set_Uint14
(Id
, UI_From_Int
(V
));
4129 procedure Init_Component_Bit_Offset
(Id
: E
) is
4131 Set_Uint11
(Id
, No_Uint
);
4132 end Init_Component_Bit_Offset
;
4134 procedure Init_Component_Bit_Offset
(Id
: E
; V
: Int
) is
4136 Set_Uint11
(Id
, UI_From_Int
(V
));
4137 end Init_Component_Bit_Offset
;
4139 procedure Init_Component_Size
(Id
: E
) is
4141 Set_Uint22
(Id
, Uint_0
);
4142 end Init_Component_Size
;
4144 procedure Init_Component_Size
(Id
: E
; V
: Int
) is
4146 Set_Uint22
(Id
, UI_From_Int
(V
));
4147 end Init_Component_Size
;
4149 procedure Init_Digits_Value
(Id
: E
) is
4151 Set_Uint17
(Id
, Uint_0
);
4152 end Init_Digits_Value
;
4154 procedure Init_Digits_Value
(Id
: E
; V
: Int
) is
4156 Set_Uint17
(Id
, UI_From_Int
(V
));
4157 end Init_Digits_Value
;
4159 procedure Init_Esize
(Id
: E
) is
4161 Set_Uint12
(Id
, Uint_0
);
4164 procedure Init_Esize
(Id
: E
; V
: Int
) is
4166 Set_Uint12
(Id
, UI_From_Int
(V
));
4169 procedure Init_Normalized_First_Bit
(Id
: E
) is
4171 Set_Uint8
(Id
, No_Uint
);
4172 end Init_Normalized_First_Bit
;
4174 procedure Init_Normalized_First_Bit
(Id
: E
; V
: Int
) is
4176 Set_Uint8
(Id
, UI_From_Int
(V
));
4177 end Init_Normalized_First_Bit
;
4179 procedure Init_Normalized_Position
(Id
: E
) is
4181 Set_Uint14
(Id
, No_Uint
);
4182 end Init_Normalized_Position
;
4184 procedure Init_Normalized_Position
(Id
: E
; V
: Int
) is
4186 Set_Uint14
(Id
, UI_From_Int
(V
));
4187 end Init_Normalized_Position
;
4189 procedure Init_Normalized_Position_Max
(Id
: E
) is
4191 Set_Uint10
(Id
, No_Uint
);
4192 end Init_Normalized_Position_Max
;
4194 procedure Init_Normalized_Position_Max
(Id
: E
; V
: Int
) is
4196 Set_Uint10
(Id
, UI_From_Int
(V
));
4197 end Init_Normalized_Position_Max
;
4199 procedure Init_RM_Size
(Id
: E
) is
4201 Set_Uint13
(Id
, Uint_0
);
4204 procedure Init_RM_Size
(Id
: E
; V
: Int
) is
4206 Set_Uint13
(Id
, UI_From_Int
(V
));
4209 -----------------------------
4210 -- Init_Component_Location --
4211 -----------------------------
4213 procedure Init_Component_Location
(Id
: E
) is
4215 Set_Uint8
(Id
, No_Uint
); -- Normalized_First_Bit
4216 Set_Uint10
(Id
, No_Uint
); -- Normalized_Position_Max
4217 Set_Uint11
(Id
, No_Uint
); -- Component_First_Bit
4218 Set_Uint12
(Id
, Uint_0
); -- Esize
4219 Set_Uint14
(Id
, No_Uint
); -- Normalized_Position
4220 end Init_Component_Location
;
4226 procedure Init_Size
(Id
: E
; V
: Int
) is
4228 Set_Uint12
(Id
, UI_From_Int
(V
)); -- Esize
4229 Set_Uint13
(Id
, UI_From_Int
(V
)); -- RM_Size
4232 ---------------------
4233 -- Init_Size_Align --
4234 ---------------------
4236 procedure Init_Size_Align
(Id
: E
) is
4238 Set_Uint12
(Id
, Uint_0
); -- Esize
4239 Set_Uint13
(Id
, Uint_0
); -- RM_Size
4240 Set_Uint14
(Id
, Uint_0
); -- Alignment
4241 end Init_Size_Align
;
4243 ----------------------------------------------
4244 -- Type Representation Attribute Predicates --
4245 ----------------------------------------------
4247 function Known_Alignment
(E
: Entity_Id
) return B
is
4249 return Uint14
(E
) /= Uint_0
4250 and then Uint14
(E
) /= No_Uint
;
4251 end Known_Alignment
;
4253 function Known_Component_Bit_Offset
(E
: Entity_Id
) return B
is
4255 return Uint11
(E
) /= No_Uint
;
4256 end Known_Component_Bit_Offset
;
4258 function Known_Component_Size
(E
: Entity_Id
) return B
is
4260 return Uint22
(Base_Type
(E
)) /= Uint_0
4261 and then Uint22
(Base_Type
(E
)) /= No_Uint
;
4262 end Known_Component_Size
;
4264 function Known_Esize
(E
: Entity_Id
) return B
is
4266 return Uint12
(E
) /= Uint_0
4267 and then Uint12
(E
) /= No_Uint
;
4270 function Known_Normalized_First_Bit
(E
: Entity_Id
) return B
is
4272 return Uint8
(E
) /= No_Uint
;
4273 end Known_Normalized_First_Bit
;
4275 function Known_Normalized_Position
(E
: Entity_Id
) return B
is
4277 return Uint14
(E
) /= No_Uint
;
4278 end Known_Normalized_Position
;
4280 function Known_Normalized_Position_Max
(E
: Entity_Id
) return B
is
4282 return Uint10
(E
) /= No_Uint
;
4283 end Known_Normalized_Position_Max
;
4285 function Known_RM_Size
(E
: Entity_Id
) return B
is
4287 return Uint13
(E
) /= No_Uint
4288 and then (Uint13
(E
) /= Uint_0
4289 or else Is_Discrete_Type
(E
)
4290 or else Is_Fixed_Point_Type
(E
));
4293 function Known_Static_Component_Bit_Offset
(E
: Entity_Id
) return B
is
4295 return Uint11
(E
) /= No_Uint
4296 and then Uint11
(E
) >= Uint_0
;
4297 end Known_Static_Component_Bit_Offset
;
4299 function Known_Static_Component_Size
(E
: Entity_Id
) return B
is
4301 return Uint22
(Base_Type
(E
)) > Uint_0
;
4302 end Known_Static_Component_Size
;
4304 function Known_Static_Esize
(E
: Entity_Id
) return B
is
4306 return Uint12
(E
) > Uint_0
;
4307 end Known_Static_Esize
;
4309 function Known_Static_Normalized_First_Bit
(E
: Entity_Id
) return B
is
4311 return Uint8
(E
) /= No_Uint
4312 and then Uint8
(E
) >= Uint_0
;
4313 end Known_Static_Normalized_First_Bit
;
4315 function Known_Static_Normalized_Position
(E
: Entity_Id
) return B
is
4317 return Uint14
(E
) /= No_Uint
4318 and then Uint14
(E
) >= Uint_0
;
4319 end Known_Static_Normalized_Position
;
4321 function Known_Static_Normalized_Position_Max
(E
: Entity_Id
) return B
is
4323 return Uint10
(E
) /= No_Uint
4324 and then Uint10
(E
) >= Uint_0
;
4325 end Known_Static_Normalized_Position_Max
;
4327 function Known_Static_RM_Size
(E
: Entity_Id
) return B
is
4329 return Uint13
(E
) > Uint_0
4330 or else Is_Discrete_Type
(E
)
4331 or else Is_Fixed_Point_Type
(E
);
4332 end Known_Static_RM_Size
;
4334 function Unknown_Alignment
(E
: Entity_Id
) return B
is
4336 return Uint14
(E
) = Uint_0
4337 or else Uint14
(E
) = No_Uint
;
4338 end Unknown_Alignment
;
4340 function Unknown_Component_Bit_Offset
(E
: Entity_Id
) return B
is
4342 return Uint11
(E
) = No_Uint
;
4343 end Unknown_Component_Bit_Offset
;
4345 function Unknown_Component_Size
(E
: Entity_Id
) return B
is
4347 return Uint22
(Base_Type
(E
)) = Uint_0
4349 Uint22
(Base_Type
(E
)) = No_Uint
;
4350 end Unknown_Component_Size
;
4352 function Unknown_Esize
(E
: Entity_Id
) return B
is
4354 return Uint12
(E
) = No_Uint
4356 Uint12
(E
) = Uint_0
;
4359 function Unknown_Normalized_First_Bit
(E
: Entity_Id
) return B
is
4361 return Uint8
(E
) = No_Uint
;
4362 end Unknown_Normalized_First_Bit
;
4364 function Unknown_Normalized_Position
(E
: Entity_Id
) return B
is
4366 return Uint14
(E
) = No_Uint
;
4367 end Unknown_Normalized_Position
;
4369 function Unknown_Normalized_Position_Max
(E
: Entity_Id
) return B
is
4371 return Uint10
(E
) = No_Uint
;
4372 end Unknown_Normalized_Position_Max
;
4374 function Unknown_RM_Size
(E
: Entity_Id
) return B
is
4376 return (Uint13
(E
) = Uint_0
4377 and then not Is_Discrete_Type
(E
)
4378 and then not Is_Fixed_Point_Type
(E
))
4379 or else Uint13
(E
) = No_Uint
;
4380 end Unknown_RM_Size
;
4382 --------------------
4383 -- Address_Clause --
4384 --------------------
4386 function Address_Clause
(Id
: E
) return N
is
4390 Ritem
:= First_Rep_Item
(Id
);
4391 while Present
(Ritem
) loop
4392 if Nkind
(Ritem
) = N_Attribute_Definition_Clause
4393 and then Chars
(Ritem
) = Name_Address
4397 Ritem
:= Next_Rep_Item
(Ritem
);
4404 ----------------------
4405 -- Alignment_Clause --
4406 ----------------------
4408 function Alignment_Clause
(Id
: E
) return N
is
4412 Ritem
:= First_Rep_Item
(Id
);
4413 while Present
(Ritem
) loop
4414 if Nkind
(Ritem
) = N_Attribute_Definition_Clause
4415 and then Chars
(Ritem
) = Name_Alignment
4419 Ritem
:= Next_Rep_Item
(Ritem
);
4424 end Alignment_Clause
;
4426 ----------------------
4427 -- Ancestor_Subtype --
4428 ----------------------
4430 function Ancestor_Subtype
(Id
: E
) return E
is
4432 -- If this is first subtype, or is a base type, then there is no
4433 -- ancestor subtype, so we return Empty to indicate this fact.
4435 if Is_First_Subtype
(Id
)
4436 or else Id
= Base_Type
(Id
)
4442 D
: constant Node_Id
:= Declaration_Node
(Id
);
4445 -- If we have a subtype declaration, get the ancestor subtype
4447 if Nkind
(D
) = N_Subtype_Declaration
then
4448 if Nkind
(Subtype_Indication
(D
)) = N_Subtype_Indication
then
4449 return Entity
(Subtype_Mark
(Subtype_Indication
(D
)));
4451 return Entity
(Subtype_Indication
(D
));
4454 -- If not, then no subtype indication is available
4460 end Ancestor_Subtype
;
4466 procedure Append_Entity
(Id
: Entity_Id
; V
: Entity_Id
) is
4468 if Last_Entity
(V
) = Empty
then
4469 Set_First_Entity
(V
, Id
);
4471 Set_Next_Entity
(Last_Entity
(V
), Id
);
4474 Set_Next_Entity
(Id
, Empty
);
4476 Set_Last_Entity
(V
, Id
);
4483 function Base_Type
(Id
: E
) return E
is
4486 when E_Enumeration_Subtype |
4488 E_Signed_Integer_Subtype |
4489 E_Modular_Integer_Subtype |
4490 E_Floating_Point_Subtype |
4491 E_Ordinary_Fixed_Point_Subtype |
4492 E_Decimal_Fixed_Point_Subtype |
4497 E_Record_Subtype_With_Private |
4498 E_Limited_Private_Subtype |
4500 E_Protected_Subtype |
4502 E_String_Literal_Subtype |
4503 E_Class_Wide_Subtype
=>
4511 -------------------------
4512 -- Component_Alignment --
4513 -------------------------
4515 -- Component Alignment is encoded using two flags, Flag128/129 as
4516 -- follows. Note that both flags False = Align_Default, so that the
4517 -- default initialization of flags to False initializes component
4518 -- alignment to the default value as required.
4520 -- Flag128 Flag129 Value
4521 -- ------- ------- -----
4522 -- False False Calign_Default
4523 -- False True Calign_Component_Size
4524 -- True False Calign_Component_Size_4
4525 -- True True Calign_Storage_Unit
4527 function Component_Alignment
(Id
: E
) return C
is
4528 BT
: constant Node_Id
:= Base_Type
(Id
);
4531 pragma Assert
(Is_Array_Type
(Id
) or else Is_Record_Type
(Id
));
4533 if Flag128
(BT
) then
4534 if Flag129
(BT
) then
4535 return Calign_Storage_Unit
;
4537 return Calign_Component_Size_4
;
4541 if Flag129
(BT
) then
4542 return Calign_Component_Size
;
4544 return Calign_Default
;
4547 end Component_Alignment
;
4549 --------------------
4550 -- Constant_Value --
4551 --------------------
4553 function Constant_Value
(Id
: E
) return N
is
4554 D
: constant Node_Id
:= Declaration_Node
(Id
);
4558 -- If we have no declaration node, then return no constant value.
4559 -- Not clear how this can happen, but it does sometimes ???
4560 -- To investigate, remove this check and compile discrim_po.adb.
4565 -- Normal case where a declaration node is present
4567 elsif Nkind
(D
) = N_Object_Renaming_Declaration
then
4568 return Renamed_Object
(Id
);
4570 -- If this is a component declaration whose entity is constant, it
4571 -- is a prival within a protected function. It does not have
4572 -- a constant value.
4574 elsif Nkind
(D
) = N_Component_Declaration
then
4577 -- If there is an expression, return it
4579 elsif Present
(Expression
(D
)) then
4580 return (Expression
(D
));
4582 -- For a constant, see if we have a full view
4584 elsif Ekind
(Id
) = E_Constant
4585 and then Present
(Full_View
(Id
))
4587 Full_D
:= Parent
(Full_View
(Id
));
4589 -- The full view may have been rewritten as an object renaming.
4591 if Nkind
(Full_D
) = N_Object_Renaming_Declaration
then
4592 return Name
(Full_D
);
4594 return Expression
(Full_D
);
4597 -- Otherwise we have no expression to return
4604 ----------------------
4605 -- Declaration_Node --
4606 ----------------------
4608 function Declaration_Node
(Id
: E
) return N
is
4612 if Ekind
(Id
) = E_Incomplete_Type
4613 and then Present
(Full_View
(Id
))
4615 P
:= Parent
(Full_View
(Id
));
4621 if Nkind
(P
) /= N_Selected_Component
4622 and then Nkind
(P
) /= N_Expanded_Name
4624 not (Nkind
(P
) = N_Defining_Program_Unit_Name
4625 and then Is_Child_Unit
(Id
))
4633 end Declaration_Node
;
4635 ---------------------
4636 -- Designated_Type --
4637 ---------------------
4639 function Designated_Type
(Id
: E
) return E
is
4643 Desig_Type
:= Directly_Designated_Type
(Id
);
4645 if Ekind
(Desig_Type
) = E_Incomplete_Type
4646 and then Present
(Full_View
(Desig_Type
))
4648 return Full_View
(Desig_Type
);
4650 elsif Is_Class_Wide_Type
(Desig_Type
)
4651 and then Ekind
(Etype
(Desig_Type
)) = E_Incomplete_Type
4652 and then Present
(Full_View
(Etype
(Desig_Type
)))
4653 and then Present
(Class_Wide_Type
(Full_View
(Etype
(Desig_Type
))))
4655 return Class_Wide_Type
(Full_View
(Etype
(Desig_Type
)));
4660 end Designated_Type
;
4662 -----------------------------
4663 -- Enclosing_Dynamic_Scope --
4664 -----------------------------
4666 function Enclosing_Dynamic_Scope
(Id
: E
) return E
is
4671 while S
/= Standard_Standard
4672 and then not Is_Dynamic_Scope
(S
)
4678 end Enclosing_Dynamic_Scope
;
4680 ----------------------
4681 -- Entry_Index_Type --
4682 ----------------------
4684 function Entry_Index_Type
(Id
: E
) return N
is
4686 pragma Assert
(Ekind
(Id
) = E_Entry_Family
);
4687 return Etype
(Discrete_Subtype_Definition
(Parent
(Id
)));
4688 end Entry_Index_Type
;
4690 ---------------------
4692 ---------------------
4694 function First_Component
(Id
: E
) return E
is
4699 (Is_Record_Type
(Id
) or else Is_Incomplete_Or_Private_Type
(Id
));
4701 Comp_Id
:= First_Entity
(Id
);
4702 while Present
(Comp_Id
) loop
4703 exit when Ekind
(Comp_Id
) = E_Component
;
4704 Comp_Id
:= Next_Entity
(Comp_Id
);
4708 end First_Component
;
4710 ------------------------
4711 -- First_Discriminant --
4712 ------------------------
4714 function First_Discriminant
(Id
: E
) return E
is
4719 (Has_Discriminants
(Id
)
4720 or else Has_Unknown_Discriminants
(Id
));
4722 Ent
:= First_Entity
(Id
);
4724 -- The discriminants are not necessarily contiguous, because access
4725 -- discriminants will generate itypes. They are not the first entities
4726 -- either, because tag and controller record must be ahead of them.
4728 if Chars
(Ent
) = Name_uTag
then
4729 Ent
:= Next_Entity
(Ent
);
4732 if Chars
(Ent
) = Name_uController
then
4733 Ent
:= Next_Entity
(Ent
);
4736 -- Skip all hidden stored discriminants if any.
4738 while Present
(Ent
) loop
4739 exit when Ekind
(Ent
) = E_Discriminant
4740 and then not Is_Completely_Hidden
(Ent
);
4742 Ent
:= Next_Entity
(Ent
);
4745 pragma Assert
(Ekind
(Ent
) = E_Discriminant
);
4748 end First_Discriminant
;
4754 function First_Formal
(Id
: E
) return E
is
4759 (Is_Overloadable
(Id
)
4760 or else Ekind
(Id
) = E_Entry_Family
4761 or else Ekind
(Id
) = E_Subprogram_Body
4762 or else Ekind
(Id
) = E_Subprogram_Type
);
4764 if Ekind
(Id
) = E_Enumeration_Literal
then
4768 Formal
:= First_Entity
(Id
);
4770 if Present
(Formal
) and then Is_Formal
(Formal
) then
4778 -------------------------------
4779 -- First_Stored_Discriminant --
4780 -------------------------------
4782 function First_Stored_Discriminant
(Id
: E
) return E
is
4785 function Has_Completely_Hidden_Discriminant
(Id
: E
) return Boolean;
4786 -- Scans the Discriminants to see whether any are Completely_Hidden
4787 -- (the mechanism for describing non-specified stored discriminants)
4789 function Has_Completely_Hidden_Discriminant
(Id
: E
) return Boolean is
4790 Ent
: Entity_Id
:= Id
;
4793 pragma Assert
(Ekind
(Id
) = E_Discriminant
);
4795 while Present
(Ent
) and then Ekind
(Ent
) = E_Discriminant
loop
4797 if Is_Completely_Hidden
(Ent
) then
4801 Ent
:= Next_Entity
(Ent
);
4805 end Has_Completely_Hidden_Discriminant
;
4807 -- Start of processing for First_Stored_Discriminant
4811 (Has_Discriminants
(Id
)
4812 or else Has_Unknown_Discriminants
(Id
));
4814 Ent
:= First_Entity
(Id
);
4816 if Chars
(Ent
) = Name_uTag
then
4817 Ent
:= Next_Entity
(Ent
);
4820 if Chars
(Ent
) = Name_uController
then
4821 Ent
:= Next_Entity
(Ent
);
4824 if Has_Completely_Hidden_Discriminant
(Ent
) then
4826 while Present
(Ent
) loop
4827 exit when Is_Completely_Hidden
(Ent
);
4828 Ent
:= Next_Entity
(Ent
);
4833 pragma Assert
(Ekind
(Ent
) = E_Discriminant
);
4836 end First_Stored_Discriminant
;
4842 function First_Subtype
(Id
: E
) return E
is
4843 B
: constant Entity_Id
:= Base_Type
(Id
);
4844 F
: constant Node_Id
:= Freeze_Node
(B
);
4848 -- If the base type has no freeze node, it is a type in standard,
4849 -- and always acts as its own first subtype unless it is one of
4850 -- the predefined integer types. If the type is formal, it is also
4851 -- a first subtype, and its base type has no freeze node. On the other
4852 -- hand, a subtype of a generic formal is not its own first_subtype.
4853 -- Its base type, if anonymous, is attached to the formal type decl.
4854 -- from which the first subtype is obtained.
4858 if B
= Base_Type
(Standard_Integer
) then
4859 return Standard_Integer
;
4861 elsif B
= Base_Type
(Standard_Long_Integer
) then
4862 return Standard_Long_Integer
;
4864 elsif B
= Base_Type
(Standard_Short_Short_Integer
) then
4865 return Standard_Short_Short_Integer
;
4867 elsif B
= Base_Type
(Standard_Short_Integer
) then
4868 return Standard_Short_Integer
;
4870 elsif B
= Base_Type
(Standard_Long_Long_Integer
) then
4871 return Standard_Long_Long_Integer
;
4873 elsif Is_Generic_Type
(Id
) then
4874 if Present
(Parent
(B
)) then
4875 return Defining_Identifier
(Parent
(B
));
4877 return Defining_Identifier
(Associated_Node_For_Itype
(B
));
4884 -- Otherwise we check the freeze node, if it has a First_Subtype_Link
4885 -- then we use that link, otherwise (happens with some Itypes), we use
4886 -- the base type itself.
4889 Ent
:= First_Subtype_Link
(F
);
4891 if Present
(Ent
) then
4899 -------------------------------------
4900 -- Get_Attribute_Definition_Clause --
4901 -------------------------------------
4903 function Get_Attribute_Definition_Clause
4911 N
:= First_Rep_Item
(E
);
4912 while Present
(N
) loop
4913 if Nkind
(N
) = N_Attribute_Definition_Clause
4914 and then Get_Attribute_Id
(Chars
(N
)) = Id
4923 end Get_Attribute_Definition_Clause
;
4925 --------------------
4926 -- Get_Rep_Pragma --
4927 --------------------
4929 function Get_Rep_Pragma
(E
: Entity_Id
; Nam
: Name_Id
) return Node_Id
is
4934 N
:= First_Rep_Item
(E
);
4936 while Present
(N
) loop
4937 if Nkind
(N
) = N_Pragma
and then Chars
(N
) = Nam
then
4939 if Nam
= Name_Stream_Convert
then
4941 -- For tagged types this pragma is not inherited, so we
4942 -- must verify that it is defined for the given type and
4945 Typ
:= Entity
(Expression
4946 (First
(Pragma_Argument_Associations
(N
))));
4948 if not Is_Tagged_Type
(E
)
4950 or else (Is_Private_Type
(Typ
)
4951 and then E
= Full_View
(Typ
))
4969 ------------------------
4970 -- Has_Attach_Handler --
4971 ------------------------
4973 function Has_Attach_Handler
(Id
: E
) return B
is
4977 pragma Assert
(Is_Protected_Type
(Id
));
4979 Ritem
:= First_Rep_Item
(Id
);
4980 while Present
(Ritem
) loop
4981 if Nkind
(Ritem
) = N_Pragma
4982 and then Chars
(Ritem
) = Name_Attach_Handler
4986 Ritem
:= Next_Rep_Item
(Ritem
);
4991 end Has_Attach_Handler
;
4997 function Has_Entries
(Id
: E
) return B
is
4998 Result
: Boolean := False;
5002 pragma Assert
(Is_Concurrent_Type
(Id
));
5003 Ent
:= First_Entity
(Id
);
5005 while Present
(Ent
) loop
5006 if Is_Entry
(Ent
) then
5011 Ent
:= Next_Entity
(Ent
);
5017 ----------------------------
5018 -- Has_Foreign_Convention --
5019 ----------------------------
5021 function Has_Foreign_Convention
(Id
: E
) return B
is
5023 return Convention
(Id
) >= Foreign_Convention
'First;
5024 end Has_Foreign_Convention
;
5026 ---------------------------
5027 -- Has_Interrupt_Handler --
5028 ---------------------------
5030 function Has_Interrupt_Handler
(Id
: E
) return B
is
5034 pragma Assert
(Is_Protected_Type
(Id
));
5036 Ritem
:= First_Rep_Item
(Id
);
5037 while Present
(Ritem
) loop
5038 if Nkind
(Ritem
) = N_Pragma
5039 and then Chars
(Ritem
) = Name_Interrupt_Handler
5043 Ritem
:= Next_Rep_Item
(Ritem
);
5048 end Has_Interrupt_Handler
;
5050 --------------------------
5051 -- Has_Private_Ancestor --
5052 --------------------------
5054 function Has_Private_Ancestor
(Id
: E
) return B
is
5055 R
: constant Entity_Id
:= Root_Type
(Id
);
5056 T1
: Entity_Id
:= Id
;
5060 if Is_Private_Type
(T1
) then
5070 end Has_Private_Ancestor
;
5072 ------------------------------
5073 -- Implementation_Base_Type --
5074 ------------------------------
5076 function Implementation_Base_Type
(Id
: E
) return E
is
5081 Bastyp
:= Base_Type
(Id
);
5083 if Is_Incomplete_Or_Private_Type
(Bastyp
) then
5084 Imptyp
:= Underlying_Type
(Bastyp
);
5086 -- If we have an implementation type, then just return it,
5087 -- otherwise we return the Base_Type anyway. This can only
5088 -- happen in error situations and should avoid some error bombs.
5090 if Present
(Imptyp
) then
5091 return Base_Type
(Imptyp
);
5099 end Implementation_Base_Type
;
5101 -----------------------
5102 -- Is_Always_Inlined --
5103 -----------------------
5105 function Is_Always_Inlined
(Id
: E
) return B
is
5109 Item
:= First_Rep_Item
(Id
);
5111 while Present
(Item
) loop
5112 if Nkind
(Item
) = N_Pragma
5113 and then Get_Pragma_Id
(Chars
(Item
)) = Pragma_Inline_Always
5118 Next_Rep_Item
(Item
);
5122 end Is_Always_Inlined
;
5124 ---------------------
5125 -- Is_Boolean_Type --
5126 ---------------------
5128 function Is_Boolean_Type
(Id
: E
) return B
is
5130 return Root_Type
(Id
) = Standard_Boolean
;
5131 end Is_Boolean_Type
;
5133 ---------------------
5134 -- Is_By_Copy_Type --
5135 ---------------------
5137 function Is_By_Copy_Type
(Id
: E
) return B
is
5139 -- If Id is a private type whose full declaration has not been seen,
5140 -- we assume for now that it is not a By_Copy type. Clearly this
5141 -- attribute should not be used before the type is frozen, but it is
5142 -- needed to build the associated record of a protected type. Another
5143 -- place where some lookahead for a full view is needed ???
5146 Is_Elementary_Type
(Id
)
5147 or else (Is_Private_Type
(Id
)
5148 and then Present
(Underlying_Type
(Id
))
5149 and then Is_Elementary_Type
(Underlying_Type
(Id
)));
5150 end Is_By_Copy_Type
;
5152 --------------------------
5153 -- Is_By_Reference_Type --
5154 --------------------------
5156 function Is_By_Reference_Type
(Id
: E
) return B
is
5157 Btype
: constant Entity_Id
:= Base_Type
(Id
);
5160 if Error_Posted
(Id
)
5161 or else Error_Posted
(Btype
)
5165 elsif Is_Private_Type
(Btype
) then
5167 Utyp
: constant Entity_Id
:= Underlying_Type
(Btype
);
5173 return Is_By_Reference_Type
(Utyp
);
5177 elsif Is_Concurrent_Type
(Btype
) then
5180 elsif Is_Record_Type
(Btype
) then
5181 if Is_Limited_Record
(Btype
)
5182 or else Is_Tagged_Type
(Btype
)
5183 or else Is_Volatile
(Btype
)
5189 C
: Entity_Id
:= First_Component
(Btype
);
5192 while Present
(C
) loop
5193 if Is_By_Reference_Type
(Etype
(C
))
5194 or else Is_Volatile
(Etype
(C
))
5199 C
:= Next_Component
(C
);
5206 elsif Is_Array_Type
(Btype
) then
5209 or else Is_By_Reference_Type
(Component_Type
(Btype
))
5210 or else Is_Volatile
(Component_Type
(Btype
))
5211 or else Has_Volatile_Components
(Btype
);
5216 end Is_By_Reference_Type
;
5218 ---------------------
5219 -- Is_Derived_Type --
5220 ---------------------
5222 function Is_Derived_Type
(Id
: E
) return B
is
5226 if Base_Type
(Id
) /= Root_Type
(Id
)
5227 and then not Is_Generic_Type
(Id
)
5228 and then not Is_Class_Wide_Type
(Id
)
5230 if not Is_Numeric_Type
(Root_Type
(Id
)) then
5234 Par
:= Parent
(First_Subtype
(Id
));
5236 return Present
(Par
)
5237 and then Nkind
(Par
) = N_Full_Type_Declaration
5238 and then Nkind
(Type_Definition
(Par
))
5239 = N_Derived_Type_Definition
;
5245 end Is_Derived_Type
;
5247 ----------------------
5248 -- Is_Dynamic_Scope --
5249 ----------------------
5251 function Is_Dynamic_Scope
(Id
: E
) return B
is
5254 Ekind
(Id
) = E_Block
5256 Ekind
(Id
) = E_Function
5258 Ekind
(Id
) = E_Procedure
5260 Ekind
(Id
) = E_Subprogram_Body
5262 Ekind
(Id
) = E_Task_Type
5264 Ekind
(Id
) = E_Entry
5266 Ekind
(Id
) = E_Entry_Family
;
5267 end Is_Dynamic_Scope
;
5269 --------------------
5270 -- Is_Entity_Name --
5271 --------------------
5273 function Is_Entity_Name
(N
: Node_Id
) return Boolean is
5274 Kind
: constant Node_Kind
:= Nkind
(N
);
5277 -- Identifiers, operator symbols, expanded names are entity names
5279 return Kind
= N_Identifier
5280 or else Kind
= N_Operator_Symbol
5281 or else Kind
= N_Expanded_Name
5283 -- Attribute references are entity names if they refer to an entity.
5284 -- Note that we don't do this by testing for the presence of the
5285 -- Entity field in the N_Attribute_Reference node, since it may not
5286 -- have been set yet.
5288 or else (Kind
= N_Attribute_Reference
5289 and then Is_Entity_Attribute_Name
(Attribute_Name
(N
)));
5292 ---------------------------
5293 -- Is_Indefinite_Subtype --
5294 ---------------------------
5296 function Is_Indefinite_Subtype
(Id
: Entity_Id
) return B
is
5297 K
: constant Entity_Kind
:= Ekind
(Id
);
5300 if Is_Constrained
(Id
) then
5303 elsif K
in Array_Kind
5304 or else K
in Class_Wide_Kind
5305 or else Has_Unknown_Discriminants
(Id
)
5309 -- Known discriminants: indefinite if there are no default values
5311 elsif K
in Record_Kind
5312 or else Is_Incomplete_Or_Private_Type
(Id
)
5313 or else Is_Concurrent_Type
(Id
)
5315 return (Has_Discriminants
(Id
)
5316 and then No
(Discriminant_Default_Value
(First_Discriminant
(Id
))));
5321 end Is_Indefinite_Subtype
;
5323 ---------------------
5324 -- Is_Limited_Type --
5325 ---------------------
5327 function Is_Limited_Type
(Id
: E
) return B
is
5328 Btype
: constant E
:= Base_Type
(Id
);
5331 if not Is_Type
(Id
) then
5334 elsif Ekind
(Btype
) = E_Limited_Private_Type
5335 or else Is_Limited_Composite
(Btype
)
5339 elsif Is_Concurrent_Type
(Btype
) then
5342 -- Otherwise we will look around to see if there is some other reason
5343 -- for it to be limited, except that if an error was posted on the
5344 -- entity, then just assume it is non-limited, because it can cause
5345 -- trouble to recurse into a murky erroneous entity!
5347 elsif Error_Posted
(Id
) then
5350 elsif Is_Record_Type
(Btype
) then
5351 if Is_Limited_Record
(Root_Type
(Btype
)) then
5354 elsif Is_Class_Wide_Type
(Btype
) then
5355 return Is_Limited_Type
(Root_Type
(Btype
));
5359 C
: E
:= First_Component
(Btype
);
5362 while Present
(C
) loop
5363 if Is_Limited_Type
(Etype
(C
)) then
5367 C
:= Next_Component
(C
);
5374 elsif Is_Array_Type
(Btype
) then
5375 return Is_Limited_Type
(Component_Type
(Btype
));
5380 end Is_Limited_Type
;
5386 function Is_Package
(Id
: E
) return B
is
5389 Ekind
(Id
) = E_Package
5391 Ekind
(Id
) = E_Generic_Package
;
5394 --------------------------
5395 -- Is_Protected_Private --
5396 --------------------------
5398 function Is_Protected_Private
(Id
: E
) return B
is
5400 pragma Assert
(Ekind
(Id
) = E_Component
);
5401 return Is_Protected_Type
(Scope
(Id
));
5402 end Is_Protected_Private
;
5404 ------------------------------
5405 -- Is_Protected_Record_Type --
5406 ------------------------------
5408 function Is_Protected_Record_Type
(Id
: E
) return B
is
5411 Is_Concurrent_Record_Type
(Id
)
5412 and then Is_Protected_Type
(Corresponding_Concurrent_Type
(Id
));
5413 end Is_Protected_Record_Type
;
5415 ---------------------------------
5416 -- Is_Return_By_Reference_Type --
5417 ---------------------------------
5419 function Is_Return_By_Reference_Type
(Id
: E
) return B
is
5420 Btype
: constant Entity_Id
:= Base_Type
(Id
);
5423 if Is_Private_Type
(Btype
) then
5425 Utyp
: constant Entity_Id
:= Underlying_Type
(Btype
);
5431 return Is_Return_By_Reference_Type
(Utyp
);
5435 elsif Is_Concurrent_Type
(Btype
) then
5438 elsif Is_Record_Type
(Btype
) then
5439 if Is_Limited_Record
(Btype
) then
5442 elsif Is_Class_Wide_Type
(Btype
) then
5443 return Is_Return_By_Reference_Type
(Root_Type
(Btype
));
5447 C
: Entity_Id
:= First_Component
(Btype
);
5450 while Present
(C
) loop
5451 if Is_Return_By_Reference_Type
(Etype
(C
)) then
5455 C
:= Next_Component
(C
);
5462 elsif Is_Array_Type
(Btype
) then
5463 return Is_Return_By_Reference_Type
(Component_Type
(Btype
));
5468 end Is_Return_By_Reference_Type
;
5470 --------------------
5471 -- Is_String_Type --
5472 --------------------
5474 function Is_String_Type
(Id
: E
) return B
is
5476 return Ekind
(Id
) in String_Kind
5477 or else (Is_Array_Type
(Id
)
5478 and then Number_Dimensions
(Id
) = 1
5479 and then Is_Character_Type
(Component_Type
(Id
)));
5482 -------------------------
5483 -- Is_Task_Record_Type --
5484 -------------------------
5486 function Is_Task_Record_Type
(Id
: E
) return B
is
5489 Is_Concurrent_Record_Type
(Id
)
5490 and then Is_Task_Type
(Corresponding_Concurrent_Type
(Id
));
5491 end Is_Task_Record_Type
;
5493 ------------------------
5494 -- Is_Wrapper_Package --
5495 ------------------------
5497 function Is_Wrapper_Package
(Id
: E
) return B
is
5499 return (Ekind
(Id
) = E_Package
5500 and then Present
(Related_Instance
(Id
)));
5501 end Is_Wrapper_Package
;
5503 --------------------
5504 -- Next_Component --
5505 --------------------
5507 function Next_Component
(Id
: E
) return E
is
5511 Comp_Id
:= Next_Entity
(Id
);
5513 while Present
(Comp_Id
) loop
5514 exit when Ekind
(Comp_Id
) = E_Component
;
5515 Comp_Id
:= Next_Entity
(Comp_Id
);
5521 -----------------------
5522 -- Next_Discriminant --
5523 -----------------------
5525 -- This function actually implements both Next_Discriminant and
5526 -- Next_Stored_Discriminant by making sure that the Discriminant
5527 -- returned is of the same variety as Id.
5529 function Next_Discriminant
(Id
: E
) return E
is
5531 -- Derived Tagged types with private extensions look like this...
5533 -- E_Discriminant d1
5534 -- E_Discriminant d2
5536 -- E_Discriminant d1
5537 -- E_Discriminant d2
5540 -- so it is critical not to go past the leading discriminants.
5545 pragma Assert
(Ekind
(Id
) = E_Discriminant
);
5548 D
:= Next_Entity
(D
);
5550 or else (Ekind
(D
) /= E_Discriminant
5551 and then not Is_Itype
(D
))
5556 exit when Ekind
(D
) = E_Discriminant
5557 and then (Is_Completely_Hidden
(D
) = Is_Completely_Hidden
(Id
));
5561 end Next_Discriminant
;
5567 function Next_Formal
(Id
: E
) return E
is
5571 -- Follow the chain of declared entities as long as the kind of
5572 -- the entity corresponds to a formal parameter. Skip internal
5573 -- entities that may have been created for implicit subtypes,
5574 -- in the process of analyzing default expressions.
5579 P
:= Next_Entity
(P
);
5581 if No
(P
) or else Is_Formal
(P
) then
5583 elsif not Is_Internal
(P
) then
5589 -----------------------------
5590 -- Next_Formal_With_Extras --
5591 -----------------------------
5593 function Next_Formal_With_Extras
(Id
: E
) return E
is
5595 if Present
(Extra_Formal
(Id
)) then
5596 return Extra_Formal
(Id
);
5598 return Next_Formal
(Id
);
5600 end Next_Formal_With_Extras
;
5606 function Next_Index
(Id
: Node_Id
) return Node_Id
is
5615 function Next_Literal
(Id
: E
) return E
is
5617 pragma Assert
(Nkind
(Id
) in N_Entity
);
5621 ------------------------------
5622 -- Next_Stored_Discriminant --
5623 ------------------------------
5625 function Next_Stored_Discriminant
(Id
: E
) return E
is
5627 -- See comment in Next_Discriminant
5629 return Next_Discriminant
(Id
);
5630 end Next_Stored_Discriminant
;
5632 -----------------------
5633 -- Number_Dimensions --
5634 -----------------------
5636 function Number_Dimensions
(Id
: E
) return Pos
is
5641 if Ekind
(Id
) in String_Kind
then
5646 T
:= First_Index
(Id
);
5648 while Present
(T
) loop
5655 end Number_Dimensions
;
5657 --------------------------
5658 -- Number_Discriminants --
5659 --------------------------
5661 function Number_Discriminants
(Id
: E
) return Pos
is
5667 Discr
:= First_Discriminant
(Id
);
5669 while Present
(Discr
) loop
5671 Discr
:= Next_Discriminant
(Discr
);
5675 end Number_Discriminants
;
5677 --------------------
5678 -- Number_Entries --
5679 --------------------
5681 function Number_Entries
(Id
: E
) return Nat
is
5686 pragma Assert
(Is_Concurrent_Type
(Id
));
5688 Ent
:= First_Entity
(Id
);
5690 while Present
(Ent
) loop
5691 if Is_Entry
(Ent
) then
5695 Ent
:= Next_Entity
(Ent
);
5701 --------------------
5702 -- Number_Formals --
5703 --------------------
5705 function Number_Formals
(Id
: E
) return Pos
is
5711 Formal
:= First_Formal
(Id
);
5713 while Present
(Formal
) loop
5715 Formal
:= Next_Formal
(Formal
);
5721 --------------------
5722 -- Parameter_Mode --
5723 --------------------
5725 function Parameter_Mode
(Id
: E
) return Formal_Kind
is
5734 function Root_Type
(Id
: E
) return E
is
5738 pragma Assert
(Nkind
(Id
) in N_Entity
);
5740 T
:= Base_Type
(Id
);
5742 if Ekind
(T
) = E_Class_Wide_Type
then
5754 -- Following test catches some error cases resulting from
5757 elsif No
(Etyp
) then
5760 elsif Is_Private_Type
(T
) and then Etyp
= Full_View
(T
) then
5763 elsif Is_Private_Type
(Etyp
) and then Full_View
(Etyp
) = T
then
5769 -- Return if there is a circularity in the inheritance chain.
5770 -- This happens in some error situations and we do not want
5771 -- to get stuck in this loop.
5773 if T
= Base_Type
(Id
) then
5779 raise Program_Error
;
5786 function Scope_Depth
(Id
: E
) return Uint
is
5787 Scop
: Entity_Id
:= Id
;
5790 while Is_Record_Type
(Scop
) loop
5791 Scop
:= Scope
(Scop
);
5794 return Scope_Depth_Value
(Scop
);
5797 ---------------------
5798 -- Scope_Depth_Set --
5799 ---------------------
5801 function Scope_Depth_Set
(Id
: E
) return B
is
5803 return not Is_Record_Type
(Id
)
5804 and then Field22
(Id
) /= Union_Id
(Empty
);
5805 end Scope_Depth_Set
;
5807 -----------------------------
5808 -- Set_Component_Alignment --
5809 -----------------------------
5811 -- Component Alignment is encoded using two flags, Flag128/129 as
5812 -- follows. Note that both flags False = Align_Default, so that the
5813 -- default initialization of flags to False initializes component
5814 -- alignment to the default value as required.
5816 -- Flag128 Flag129 Value
5817 -- ------- ------- -----
5818 -- False False Calign_Default
5819 -- False True Calign_Component_Size
5820 -- True False Calign_Component_Size_4
5821 -- True True Calign_Storage_Unit
5823 procedure Set_Component_Alignment
(Id
: E
; V
: C
) is
5825 pragma Assert
((Is_Array_Type
(Id
) or else Is_Record_Type
(Id
))
5826 and then Id
= Base_Type
(Id
));
5829 when Calign_Default
=>
5830 Set_Flag128
(Id
, False);
5831 Set_Flag129
(Id
, False);
5833 when Calign_Component_Size
=>
5834 Set_Flag128
(Id
, False);
5835 Set_Flag129
(Id
, True);
5837 when Calign_Component_Size_4
=>
5838 Set_Flag128
(Id
, True);
5839 Set_Flag129
(Id
, False);
5841 when Calign_Storage_Unit
=>
5842 Set_Flag128
(Id
, True);
5843 Set_Flag129
(Id
, True);
5845 end Set_Component_Alignment
;
5851 function Size_Clause
(Id
: E
) return N
is
5855 Ritem
:= First_Rep_Item
(Id
);
5856 while Present
(Ritem
) loop
5857 if Nkind
(Ritem
) = N_Attribute_Definition_Clause
5858 and then Chars
(Ritem
) = Name_Size
5862 Ritem
:= Next_Rep_Item
(Ritem
);
5873 function Subtype_Kind
(K
: Entity_Kind
) return Entity_Kind
is
5879 Kind
:= E_Access_Subtype
;
5883 Kind
:= E_Array_Subtype
;
5885 when E_Class_Wide_Type |
5886 E_Class_Wide_Subtype
=>
5887 Kind
:= E_Class_Wide_Subtype
;
5889 when E_Decimal_Fixed_Point_Type |
5890 E_Decimal_Fixed_Point_Subtype
=>
5891 Kind
:= E_Decimal_Fixed_Point_Subtype
;
5893 when E_Ordinary_Fixed_Point_Type |
5894 E_Ordinary_Fixed_Point_Subtype
=>
5895 Kind
:= E_Ordinary_Fixed_Point_Subtype
;
5897 when E_Private_Type |
5898 E_Private_Subtype
=>
5899 Kind
:= E_Private_Subtype
;
5901 when E_Limited_Private_Type |
5902 E_Limited_Private_Subtype
=>
5903 Kind
:= E_Limited_Private_Subtype
;
5905 when E_Record_Type_With_Private |
5906 E_Record_Subtype_With_Private
=>
5907 Kind
:= E_Record_Subtype_With_Private
;
5909 when E_Record_Type |
5911 Kind
:= E_Record_Subtype
;
5913 when E_String_Type |
5915 Kind
:= E_String_Subtype
;
5917 when Enumeration_Kind
=>
5918 Kind
:= E_Enumeration_Subtype
;
5921 Kind
:= E_Floating_Point_Subtype
;
5923 when Signed_Integer_Kind
=>
5924 Kind
:= E_Signed_Integer_Subtype
;
5926 when Modular_Integer_Kind
=>
5927 Kind
:= E_Modular_Integer_Subtype
;
5929 when Protected_Kind
=>
5930 Kind
:= E_Protected_Subtype
;
5933 Kind
:= E_Task_Subtype
;
5937 raise Program_Error
;
5947 function Tag_Component
(Id
: E
) return E
is
5949 Typ
: Entity_Id
:= Id
;
5952 pragma Assert
(Is_Tagged_Type
(Typ
));
5954 if Is_Class_Wide_Type
(Typ
) then
5955 Typ
:= Root_Type
(Typ
);
5958 if Is_Private_Type
(Typ
) then
5959 Typ
:= Underlying_Type
(Typ
);
5962 Comp
:= First_Entity
(Typ
);
5963 while Present
(Comp
) loop
5964 if Is_Tag
(Comp
) then
5968 Comp
:= Next_Entity
(Comp
);
5971 -- No tag component found
5976 ---------------------
5977 -- Type_High_Bound --
5978 ---------------------
5980 function Type_High_Bound
(Id
: E
) return Node_Id
is
5982 if Nkind
(Scalar_Range
(Id
)) = N_Subtype_Indication
then
5983 return High_Bound
(Range_Expression
(Constraint
(Scalar_Range
(Id
))));
5985 return High_Bound
(Scalar_Range
(Id
));
5987 end Type_High_Bound
;
5989 --------------------
5990 -- Type_Low_Bound --
5991 --------------------
5993 function Type_Low_Bound
(Id
: E
) return Node_Id
is
5995 if Nkind
(Scalar_Range
(Id
)) = N_Subtype_Indication
then
5996 return Low_Bound
(Range_Expression
(Constraint
(Scalar_Range
(Id
))));
5998 return Low_Bound
(Scalar_Range
(Id
));
6002 ---------------------
6003 -- Underlying_Type --
6004 ---------------------
6006 function Underlying_Type
(Id
: E
) return E
is
6008 -- For record_with_private the underlying type is always the direct
6009 -- full view. Never try to take the full view of the parent it
6010 -- doesn't make sense.
6012 if Ekind
(Id
) = E_Record_Type_With_Private
then
6013 return Full_View
(Id
);
6015 elsif Ekind
(Id
) in Incomplete_Or_Private_Kind
then
6017 -- If we have an incomplete or private type with a full view,
6018 -- then we return the Underlying_Type of this full view
6020 if Present
(Full_View
(Id
)) then
6021 if Id
= Full_View
(Id
) then
6023 -- Previous error in declaration
6028 return Underlying_Type
(Full_View
(Id
));
6031 -- Otherwise check for the case where we have a derived type or
6032 -- subtype, and if so get the Underlying_Type of the parent type.
6034 elsif Etype
(Id
) /= Id
then
6035 return Underlying_Type
(Etype
(Id
));
6037 -- Otherwise we have an incomplete or private type that has
6038 -- no full view, which means that we have not encountered the
6039 -- completion, so return Empty to indicate the underlying type
6040 -- is not yet known.
6046 -- For non-incomplete, non-private types, return the type itself
6047 -- Also for entities that are not types at all return the entity
6053 end Underlying_Type
;
6055 ------------------------
6056 -- Write_Entity_Flags --
6057 ------------------------
6059 procedure Write_Entity_Flags
(Id
: Entity_Id
; Prefix
: String) is
6061 procedure W
(Flag_Name
: String; Flag
: Boolean);
6062 -- Write out given flag if it is set
6064 procedure W
(Flag_Name
: String; Flag
: Boolean) is
6068 Write_Str
(Flag_Name
);
6069 Write_Str
(" = True");
6074 -- Start of processing for Write_Entity_Flags
6077 if (Is_Array_Type
(Id
) or else Is_Record_Type
(Id
))
6078 and then Base_Type
(Id
) = Id
6081 Write_Str
("Component_Alignment = ");
6083 case Component_Alignment
(Id
) is
6084 when Calign_Default
=>
6085 Write_Str
("Calign_Default");
6087 when Calign_Component_Size
=>
6088 Write_Str
("Calign_Component_Size");
6090 when Calign_Component_Size_4
=>
6091 Write_Str
("Calign_Component_Size_4");
6093 when Calign_Storage_Unit
=>
6094 Write_Str
("Calign_Storage_Unit");
6100 W
("Address_Taken", Flag104
(Id
));
6101 W
("Body_Needed_For_SAL", Flag40
(Id
));
6102 W
("C_Pass_By_Copy", Flag125
(Id
));
6103 W
("Can_Never_Be_Null", Flag38
(Id
));
6104 W
("Checks_May_Be_Suppressed", Flag31
(Id
));
6105 W
("Debug_Info_Off", Flag166
(Id
));
6106 W
("Default_Expressions_Processed", Flag108
(Id
));
6107 W
("Delay_Cleanups", Flag114
(Id
));
6108 W
("Delay_Subprogram_Descriptors", Flag50
(Id
));
6109 W
("Depends_On_Private", Flag14
(Id
));
6110 W
("Discard_Names", Flag88
(Id
));
6111 W
("Elaborate_All_Desirable", Flag146
(Id
));
6112 W
("Elaboration_Entity_Required", Flag174
(Id
));
6113 W
("Entry_Accepted", Flag152
(Id
));
6114 W
("Finalize_Storage_Only", Flag158
(Id
));
6115 W
("From_With_Type", Flag159
(Id
));
6116 W
("Function_Returns_With_DSP", Flag169
(Id
));
6117 W
("Has_Aliased_Components", Flag135
(Id
));
6118 W
("Has_Alignment_Clause", Flag46
(Id
));
6119 W
("Has_All_Calls_Remote", Flag79
(Id
));
6120 W
("Has_Atomic_Components", Flag86
(Id
));
6121 W
("Has_Biased_Representation", Flag139
(Id
));
6122 W
("Has_Completion", Flag26
(Id
));
6123 W
("Has_Completion_In_Body", Flag71
(Id
));
6124 W
("Has_Complex_Representation", Flag140
(Id
));
6125 W
("Has_Component_Size_Clause", Flag68
(Id
));
6126 W
("Has_Contiguous_Rep", Flag181
(Id
));
6127 W
("Has_Controlled_Component", Flag43
(Id
));
6128 W
("Has_Controlling_Result", Flag98
(Id
));
6129 W
("Has_Convention_Pragma", Flag119
(Id
));
6130 W
("Has_Delayed_Freeze", Flag18
(Id
));
6131 W
("Has_Discriminants", Flag5
(Id
));
6132 W
("Has_Enumeration_Rep_Clause", Flag66
(Id
));
6133 W
("Has_Exit", Flag47
(Id
));
6134 W
("Has_External_Tag_Rep_Clause", Flag110
(Id
));
6135 W
("Has_Forward_Instantiation", Flag175
(Id
));
6136 W
("Has_Fully_Qualified_Name", Flag173
(Id
));
6137 W
("Has_Gigi_Rep_Item", Flag82
(Id
));
6138 W
("Has_Homonym", Flag56
(Id
));
6139 W
("Has_Machine_Radix_Clause", Flag83
(Id
));
6140 W
("Has_Master_Entity", Flag21
(Id
));
6141 W
("Has_Missing_Return", Flag142
(Id
));
6142 W
("Has_Nested_Block_With_Handler", Flag101
(Id
));
6143 W
("Has_Non_Standard_Rep", Flag75
(Id
));
6144 W
("Has_Object_Size_Clause", Flag172
(Id
));
6145 W
("Has_Per_Object_Constraint", Flag154
(Id
));
6146 W
("Has_Pragma_Controlled", Flag27
(Id
));
6147 W
("Has_Pragma_Elaborate_Body", Flag150
(Id
));
6148 W
("Has_Pragma_Inline", Flag157
(Id
));
6149 W
("Has_Pragma_Pack", Flag121
(Id
));
6150 W
("Has_Pragma_Pure_Function", Flag179
(Id
));
6151 W
("Has_Pragma_Unreferenced", Flag180
(Id
));
6152 W
("Has_Primitive_Operations", Flag120
(Id
));
6153 W
("Has_Private_Declaration", Flag155
(Id
));
6154 W
("Has_Qualified_Name", Flag161
(Id
));
6155 W
("Has_Record_Rep_Clause", Flag65
(Id
));
6156 W
("Has_Recursive_Call", Flag143
(Id
));
6157 W
("Has_Size_Clause", Flag29
(Id
));
6158 W
("Has_Small_Clause", Flag67
(Id
));
6159 W
("Has_Specified_Layout", Flag100
(Id
));
6160 W
("Has_Storage_Size_Clause", Flag23
(Id
));
6161 W
("Has_Subprogram_Descriptor", Flag93
(Id
));
6162 W
("Has_Task", Flag30
(Id
));
6163 W
("Has_Unchecked_Union", Flag123
(Id
));
6164 W
("Has_Unknown_Discriminants", Flag72
(Id
));
6165 W
("Has_Volatile_Components", Flag87
(Id
));
6166 W
("Has_Xref_Entry", Flag182
(Id
));
6167 W
("In_Package_Body", Flag48
(Id
));
6168 W
("In_Private_Part", Flag45
(Id
));
6169 W
("In_Use", Flag8
(Id
));
6170 W
("Is_AST_Entry", Flag132
(Id
));
6171 W
("Is_Abstract", Flag19
(Id
));
6172 W
("Is_Access_Constant", Flag69
(Id
));
6173 W
("Is_Aliased", Flag15
(Id
));
6174 W
("Is_Asynchronous", Flag81
(Id
));
6175 W
("Is_Atomic", Flag85
(Id
));
6176 W
("Is_Bit_Packed_Array", Flag122
(Id
));
6177 W
("Is_CPP_Class", Flag74
(Id
));
6178 W
("Is_Called", Flag102
(Id
));
6179 W
("Is_Character_Type", Flag63
(Id
));
6180 W
("Is_Child_Unit", Flag73
(Id
));
6181 W
("Is_Class_Wide_Equivalent_Type", Flag35
(Id
));
6182 W
("Is_Compilation_Unit", Flag149
(Id
));
6183 W
("Is_Completely_Hidden", Flag103
(Id
));
6184 W
("Is_Concurrent_Record_Type", Flag20
(Id
));
6185 W
("Is_Constr_Subt_For_UN_Aliased", Flag141
(Id
));
6186 W
("Is_Constr_Subt_For_U_Nominal", Flag80
(Id
));
6187 W
("Is_Constrained", Flag12
(Id
));
6188 W
("Is_Constructor", Flag76
(Id
));
6189 W
("Is_Controlled", Flag42
(Id
));
6190 W
("Is_Controlling_Formal", Flag97
(Id
));
6191 W
("Is_Discrim_SO_Function", Flag176
(Id
));
6192 W
("Is_Dispatching_Operation", Flag6
(Id
));
6193 W
("Is_Eliminated", Flag124
(Id
));
6194 W
("Is_Entry_Formal", Flag52
(Id
));
6195 W
("Is_Exported", Flag99
(Id
));
6196 W
("Is_First_Subtype", Flag70
(Id
));
6197 W
("Is_For_Access_Subtype", Flag118
(Id
));
6198 W
("Is_Formal_Subprogram", Flag111
(Id
));
6199 W
("Is_Frozen", Flag4
(Id
));
6200 W
("Is_Generic_Actual_Type", Flag94
(Id
));
6201 W
("Is_Generic_Instance", Flag130
(Id
));
6202 W
("Is_Generic_Type", Flag13
(Id
));
6203 W
("Is_Hidden", Flag57
(Id
));
6204 W
("Is_Hidden_Open_Scope", Flag171
(Id
));
6205 W
("Is_Immediately_Visible", Flag7
(Id
));
6206 W
("Is_Imported", Flag24
(Id
));
6207 W
("Is_Inlined", Flag11
(Id
));
6208 W
("Is_Instantiated", Flag126
(Id
));
6209 W
("Is_Internal", Flag17
(Id
));
6210 W
("Is_Interrupt_Handler", Flag89
(Id
));
6211 W
("Is_Intrinsic_Subprogram", Flag64
(Id
));
6212 W
("Is_Itype", Flag91
(Id
));
6213 W
("Is_Known_Valid", Flag37
(Id
));
6214 W
("Is_Known_Valid", Flag170
(Id
));
6215 W
("Is_Limited_Composite", Flag106
(Id
));
6216 W
("Is_Limited_Record", Flag25
(Id
));
6217 W
("Is_Machine_Code_Subprogram", Flag137
(Id
));
6218 W
("Is_Non_Static_Subtype", Flag109
(Id
));
6219 W
("Is_Null_Init_Proc", Flag178
(Id
));
6220 W
("Is_Optional_Parameter", Flag134
(Id
));
6221 W
("Is_Overriding_Operation", Flag39
(Id
));
6222 W
("Is_Package_Body_Entity", Flag160
(Id
));
6223 W
("Is_Packed", Flag51
(Id
));
6224 W
("Is_Packed_Array_Type", Flag138
(Id
));
6225 W
("Is_Potentially_Use_Visible", Flag9
(Id
));
6226 W
("Is_Preelaborated", Flag59
(Id
));
6227 W
("Is_Private_Composite", Flag107
(Id
));
6228 W
("Is_Private_Descendant", Flag53
(Id
));
6229 W
("Is_Psected", Flag153
(Id
));
6230 W
("Is_Public", Flag10
(Id
));
6231 W
("Is_Pure", Flag44
(Id
));
6232 W
("Is_Remote_Call_Interface", Flag62
(Id
));
6233 W
("Is_Remote_Types", Flag61
(Id
));
6234 W
("Is_Renaming_Of_Object", Flag112
(Id
));
6235 W
("Is_Shared_Passive", Flag60
(Id
));
6236 W
("Is_Statically_Allocated", Flag28
(Id
));
6237 W
("Is_Tag", Flag78
(Id
));
6238 W
("Is_Tagged_Type", Flag55
(Id
));
6239 W
("Is_Thread_Body", Flag77
(Id
));
6240 W
("Is_True_Constant", Flag163
(Id
));
6241 W
("Is_Unchecked_Union", Flag117
(Id
));
6242 W
("Is_Unsigned_Type", Flag144
(Id
));
6243 W
("Is_VMS_Exception", Flag133
(Id
));
6244 W
("Is_Valued_Procedure", Flag127
(Id
));
6245 W
("Is_Visible_Child_Unit", Flag116
(Id
));
6246 W
("Is_Volatile", Flag16
(Id
));
6247 W
("Kill_Elaboration_Checks", Flag32
(Id
));
6248 W
("Kill_Range_Checks", Flag33
(Id
));
6249 W
("Kill_Tag_Checks", Flag34
(Id
));
6250 W
("Machine_Radix_10", Flag84
(Id
));
6251 W
("Materialize_Entity", Flag168
(Id
));
6252 W
("Needs_Debug_Info", Flag147
(Id
));
6253 W
("Needs_No_Actuals", Flag22
(Id
));
6254 W
("Never_Set_In_Source", Flag115
(Id
));
6255 W
("No_Pool_Assigned", Flag131
(Id
));
6256 W
("No_Return", Flag113
(Id
));
6257 W
("No_Strict_Aliasing", Flag136
(Id
));
6258 W
("Non_Binary_Modulus", Flag58
(Id
));
6259 W
("Nonzero_Is_True", Flag162
(Id
));
6260 W
("Reachable", Flag49
(Id
));
6261 W
("Referenced", Flag156
(Id
));
6262 W
("Referenced_As_LHS", Flag36
(Id
));
6263 W
("Return_Present", Flag54
(Id
));
6264 W
("Returns_By_Ref", Flag90
(Id
));
6265 W
("Reverse_Bit_Order", Flag164
(Id
));
6266 W
("Sec_Stack_Needed_For_Return", Flag167
(Id
));
6267 W
("Size_Depends_On_Discriminant", Flag177
(Id
));
6268 W
("Size_Known_At_Compile_Time", Flag92
(Id
));
6269 W
("Strict_Alignment", Flag145
(Id
));
6270 W
("Suppress_Elaboration_Warnings", Flag148
(Id
));
6271 W
("Suppress_Init_Proc", Flag105
(Id
));
6272 W
("Suppress_Style_Checks", Flag165
(Id
));
6273 W
("Treat_As_Volatile", Flag41
(Id
));
6274 W
("Uses_Sec_Stack", Flag95
(Id
));
6275 W
("Vax_Float", Flag151
(Id
));
6276 W
("Warnings_Off", Flag96
(Id
));
6277 end Write_Entity_Flags
;
6279 -----------------------
6280 -- Write_Entity_Info --
6281 -----------------------
6283 procedure Write_Entity_Info
(Id
: Entity_Id
; Prefix
: String) is
6285 procedure Write_Attribute
(Which
: String; Nam
: E
);
6286 -- Write attribute value with given string name
6288 procedure Write_Kind
(Id
: Entity_Id
);
6289 -- Write Ekind field of entity
6291 procedure Write_Attribute
(Which
: String; Nam
: E
) is
6295 Write_Int
(Int
(Nam
));
6297 Write_Name
(Chars
(Nam
));
6299 end Write_Attribute
;
6301 procedure Write_Kind
(Id
: Entity_Id
) is
6302 K
: constant String := Entity_Kind
'Image (Ekind
(Id
));
6306 Write_Str
(" Kind ");
6308 if Is_Type
(Id
) and then Is_Tagged_Type
(Id
) then
6309 Write_Str
("TAGGED ");
6312 Write_Str
(K
(3 .. K
'Length));
6315 if Is_Type
(Id
) and then Depends_On_Private
(Id
) then
6316 Write_Str
("Depends_On_Private ");
6320 -- Start of processing for Write_Entity_Info
6324 Write_Attribute
("Name ", Id
);
6325 Write_Int
(Int
(Id
));
6329 Write_Attribute
(" Type ", Etype
(Id
));
6331 Write_Attribute
(" Scope ", Scope
(Id
));
6336 when Discrete_Kind
=>
6337 Write_Str
("Bounds: Id = ");
6339 if Present
(Scalar_Range
(Id
)) then
6340 Write_Int
(Int
(Type_Low_Bound
(Id
)));
6341 Write_Str
(" .. Id = ");
6342 Write_Int
(Int
(Type_High_Bound
(Id
)));
6344 Write_Str
("Empty");
6354 Write_Attribute
(" Component Type ",
6355 Component_Type
(Id
));
6358 Write_Str
(" Indices ");
6360 Index
:= First_Index
(Id
);
6362 while Present
(Index
) loop
6363 Write_Attribute
(" ", Etype
(Index
));
6364 Index
:= Next_Index
(Index
);
6372 (" Directly Designated Type ",
6373 Directly_Designated_Type
(Id
));
6376 when Overloadable_Kind
=>
6377 if Present
(Homonym
(Id
)) then
6378 Write_Str
(" Homonym ");
6379 Write_Name
(Chars
(Homonym
(Id
)));
6381 Write_Int
(Int
(Homonym
(Id
)));
6388 if Ekind
(Scope
(Id
)) in Record_Kind
then
6390 " Original_Record_Component ",
6391 Original_Record_Component
(Id
));
6392 Write_Int
(Int
(Original_Record_Component
(Id
)));
6396 when others => null;
6398 end Write_Entity_Info
;
6400 -----------------------
6401 -- Write_Field6_Name --
6402 -----------------------
6404 procedure Write_Field6_Name
(Id
: Entity_Id
) is
6405 pragma Warnings
(Off
, Id
);
6408 Write_Str
("First_Rep_Item");
6409 end Write_Field6_Name
;
6411 -----------------------
6412 -- Write_Field7_Name --
6413 -----------------------
6415 procedure Write_Field7_Name
(Id
: Entity_Id
) is
6416 pragma Warnings
(Off
, Id
);
6419 Write_Str
("Freeze_Node");
6420 end Write_Field7_Name
;
6422 -----------------------
6423 -- Write_Field8_Name --
6424 -----------------------
6426 procedure Write_Field8_Name
(Id
: Entity_Id
) is
6431 Write_Str
("Normalized_First_Bit");
6435 E_Subprogram_Body
=>
6436 Write_Str
("Mechanism");
6439 Write_Str
("Associated_Node_For_Itype");
6442 Write_Str
("Dependent_Instances");
6445 Write_Str
("Hiding_Loop_Variable");
6448 Write_Str
("Field8??");
6450 end Write_Field8_Name
;
6452 -----------------------
6453 -- Write_Field9_Name --
6454 -----------------------
6456 procedure Write_Field9_Name
(Id
: Entity_Id
) is
6460 Write_Str
("Class_Wide_Type");
6463 E_Generic_Function |
6465 E_Generic_Procedure |
6468 Write_Str
("Renaming_Map");
6471 Write_Str
("Current_Value");
6474 Write_Str
("Field9??");
6476 end Write_Field9_Name
;
6478 ------------------------
6479 -- Write_Field10_Name --
6480 ------------------------
6482 procedure Write_Field10_Name
(Id
: Entity_Id
) is
6486 Write_Str
("Referenced_Object");
6488 when E_In_Parameter |
6490 Write_Str
("Discriminal_Link");
6496 Write_Str
("Handler_Records");
6500 Write_Str
("Normalized_Position_Max");
6503 Write_Str
("Field10??");
6505 end Write_Field10_Name
;
6507 ------------------------
6508 -- Write_Field11_Name --
6509 ------------------------
6511 procedure Write_Field11_Name
(Id
: Entity_Id
) is
6515 Write_Str
("Entry_Component");
6519 Write_Str
("Component_Bit_Offset");
6522 Write_Str
("Full_View");
6524 when E_Enumeration_Literal
=>
6525 Write_Str
("Enumeration_Pos");
6528 Write_Str
("Block_Node");
6534 Write_Str
("Protected_Body_Subprogram");
6536 when E_Generic_Package
=>
6537 Write_Str
("Generic_Homonym");
6540 Write_Str
("Full_View");
6543 Write_Str
("Field11??");
6545 end Write_Field11_Name
;
6547 ------------------------
6548 -- Write_Field12_Name --
6549 ------------------------
6551 procedure Write_Field12_Name
(Id
: Entity_Id
) is
6555 Write_Str
("Barrier_Function");
6557 when E_Enumeration_Literal
=>
6558 Write_Str
("Enumeration_Rep");
6565 E_In_Out_Parameter |
6569 Write_Str
("Esize");
6573 Write_Str
("Next_Inlined_Subprogram");
6576 Write_Str
("Associated_Formal_Package");
6579 Write_Str
("Field12??");
6581 end Write_Field12_Name
;
6583 ------------------------
6584 -- Write_Field13_Name --
6585 ------------------------
6587 procedure Write_Field13_Name
(Id
: Entity_Id
) is
6591 Write_Str
("RM_Size");
6595 Write_Str
("Component_Clause");
6597 when E_Enumeration_Literal
=>
6598 Write_Str
("Debug_Renaming_Link");
6601 if not Comes_From_Source
(Id
)
6603 Chars
(Id
) = Name_Op_Ne
6605 Write_Str
("Corresponding_Equality");
6607 elsif Comes_From_Source
(Id
) then
6608 Write_Str
("Elaboration_Entity");
6611 Write_Str
("Field13??");
6616 Write_Str
("Extra_Accessibility");
6620 Generic_Unit_Kind
=>
6621 Write_Str
("Elaboration_Entity");
6624 Write_Str
("Field13??");
6626 end Write_Field13_Name
;
6628 -----------------------
6629 -- Write_Field14_Name --
6630 -----------------------
6632 procedure Write_Field14_Name
(Id
: Entity_Id
) is
6640 Write_Str
("Alignment");
6644 Write_Str
("Normalized_Position");
6648 Write_Str
("First_Optional_Parameter");
6651 E_Generic_Package
=>
6652 Write_Str
("Shadow_Entities");
6655 Write_Str
("Field14??");
6657 end Write_Field14_Name
;
6659 ------------------------
6660 -- Write_Field15_Name --
6661 ------------------------
6663 procedure Write_Field15_Name
(Id
: Entity_Id
) is
6668 Write_Str
("Storage_Size_Variable");
6670 when Class_Wide_Kind |
6674 Write_Str
("Primitive_Operations");
6677 Write_Str
("DT_Entry_Count");
6679 when Decimal_Fixed_Point_Kind
=>
6680 Write_Str
("Scale_Value");
6682 when E_Discriminant
=>
6683 Write_Str
("Discriminant_Number");
6686 Write_Str
("Extra_Formal");
6690 Write_Str
("DT_Position");
6693 Write_Str
("Entry_Parameters_Type");
6695 when Enumeration_Kind
=>
6696 Write_Str
("Lit_Indexes");
6700 Write_Str
("Related_Instance");
6702 when E_Protected_Type
=>
6703 Write_Str
("Entry_Bodies_Array");
6705 when E_String_Literal_Subtype
=>
6706 Write_Str
("String_Literal_Low_Bound");
6709 Write_Str
("Shared_Var_Read_Proc");
6712 Write_Str
("Field15??");
6714 end Write_Field15_Name
;
6716 ------------------------
6717 -- Write_Field16_Name --
6718 ------------------------
6720 procedure Write_Field16_Name
(Id
: Entity_Id
) is
6724 Write_Str
("Entry_Formal");
6728 Write_Str
("DTC_Entity");
6733 Write_Str
("First_Private_Entity");
6735 when E_Record_Type |
6736 E_Record_Type_With_Private
=>
6737 Write_Str
("Access_Disp_Table");
6739 when E_String_Literal_Subtype
=>
6740 Write_Str
("String_Literal_Length");
6742 when Enumeration_Kind
=>
6743 Write_Str
("Lit_Strings");
6747 Write_Str
("Unset_Reference");
6749 when E_Record_Subtype |
6750 E_Class_Wide_Subtype
=>
6751 Write_Str
("Cloned_Subtype");
6754 Write_Str
("Field16??");
6756 end Write_Field16_Name
;
6758 ------------------------
6759 -- Write_Field17_Name --
6760 ------------------------
6762 procedure Write_Field17_Name
(Id
: Entity_Id
) is
6766 Write_Str
("Digits_Value");
6769 Write_Str
("Prival");
6771 when E_Discriminant
=>
6772 Write_Str
("Discriminal");
6781 E_Generic_Function |
6783 E_Generic_Procedure |
6792 E_Subprogram_Type
=>
6793 Write_Str
("First_Entity");
6796 Write_Str
("First_Index");
6798 when E_Protected_Body
=>
6799 Write_Str
("Object_Ref");
6801 when Enumeration_Kind
=>
6802 Write_Str
("First_Literal");
6805 Write_Str
("Master_Id");
6807 when Modular_Integer_Kind
=>
6808 Write_Str
("Modulus");
6812 E_Generic_In_Out_Parameter |
6814 Write_Str
("Actual_Subtype");
6816 when E_Incomplete_Type
=>
6817 Write_Str
("Non-limited view");
6820 Write_Str
("Field17??");
6822 end Write_Field17_Name
;
6824 -----------------------
6825 -- Write_Field18_Name --
6826 -----------------------
6828 procedure Write_Field18_Name
(Id
: Entity_Id
) is
6831 when E_Enumeration_Literal |
6835 Write_Str
("Alias");
6837 when E_Record_Type
=>
6838 Write_Str
("Corresponding_Concurrent_Type");
6840 when E_Entry_Index_Parameter
=>
6841 Write_Str
("Entry_Index_Constant");
6843 when E_Class_Wide_Subtype |
6844 E_Access_Protected_Subprogram_Type |
6845 E_Access_Subprogram_Type |
6847 Write_Str
("Equivalent_Type");
6849 when Fixed_Point_Kind
=>
6850 Write_Str
("Delta_Value");
6854 Write_Str
("Renamed_Object");
6858 E_Generic_Function |
6859 E_Generic_Procedure |
6860 E_Generic_Package
=>
6861 Write_Str
("Renamed_Entity");
6863 when Incomplete_Or_Private_Kind
=>
6864 Write_Str
("Private_Dependents");
6866 when Concurrent_Kind
=>
6867 Write_Str
("Corresponding_Record_Type");
6872 Write_Str
("Enclosing_Scope");
6875 Write_Str
("Field18??");
6877 end Write_Field18_Name
;
6879 -----------------------
6880 -- Write_Field19_Name --
6881 -----------------------
6883 procedure Write_Field19_Name
(Id
: Entity_Id
) is
6888 Write_Str
("Related_Array_Object");
6895 Write_Str
("Finalization_Chain_Entity");
6897 when E_Constant | E_Variable
=>
6898 Write_Str
("Size_Check_Code");
6900 when E_Discriminant
=>
6901 Write_Str
("Corresponding_Discriminant");
6904 E_Generic_Package
=>
6905 Write_Str
("Body_Entity");
6907 when E_Package_Body |
6909 Write_Str
("Spec_Entity");
6911 when Private_Kind
=>
6912 Write_Str
("Underlying_Full_View");
6914 when E_Record_Type
=>
6915 Write_Str
("Parent_Subtype");
6918 Write_Str
("Field19??");
6920 end Write_Field19_Name
;
6922 -----------------------
6923 -- Write_Field20_Name --
6924 -----------------------
6926 procedure Write_Field20_Name
(Id
: Entity_Id
) is
6930 Write_Str
("Component_Type");
6932 when E_In_Parameter |
6933 E_Generic_In_Parameter
=>
6934 Write_Str
("Default_Value");
6937 Write_Str
("Directly_Designated_Type");
6940 Write_Str
("Discriminant_Checking_Func");
6942 when E_Discriminant
=>
6943 Write_Str
("Discriminant_Default_Value");
6952 E_Generic_Function |
6954 E_Generic_Procedure |
6963 E_Subprogram_Type
=>
6965 Write_Str
("Last_Entity");
6968 Write_Str
("Scalar_Range");
6971 Write_Str
("Register_Exception_Call");
6974 Write_Str
("Field20??");
6976 end Write_Field20_Name
;
6978 -----------------------
6979 -- Write_Field21_Name --
6980 -----------------------
6982 procedure Write_Field21_Name
(Id
: Entity_Id
) is
6988 E_Generic_Function |
6990 E_Generic_Procedure |
6992 Write_Str
("Interface_Name");
6994 when Concurrent_Kind |
6995 Incomplete_Or_Private_Kind |
6999 Write_Str
("Discriminant_Constraint");
7002 Write_Str
("Accept_Address");
7004 when Fixed_Point_Kind
=>
7005 Write_Str
("Small_Value");
7007 when E_In_Parameter
=>
7008 Write_Str
("Default_Expr_Function");
7011 Modular_Integer_Kind
=>
7012 Write_Str
("Original_Array_Type");
7014 when E_Access_Subprogram_Type |
7015 E_Access_Protected_Subprogram_Type
=>
7016 Write_Str
("Original_Access_Type");
7019 Write_Str
("Field21??");
7021 end Write_Field21_Name
;
7023 -----------------------
7024 -- Write_Field22_Name --
7025 -----------------------
7027 procedure Write_Field22_Name
(Id
: Entity_Id
) is
7031 Write_Str
("Associated_Storage_Pool");
7034 Write_Str
("Component_Size");
7038 Write_Str
("Original_Record_Component");
7040 when E_Enumeration_Literal
=>
7041 Write_Str
("Enumeration_Rep_Expr");
7044 Write_Str
("Exception_Code");
7047 Write_Str
("Protected_Formal");
7049 when E_Record_Type
=>
7050 Write_Str
("Corresponding_Remote_Type");
7060 E_Generic_Function |
7061 E_Generic_Procedure |
7066 Write_Str
("Scope_Depth_Value");
7068 when E_Record_Type_With_Private |
7069 E_Record_Subtype_With_Private |
7072 E_Limited_Private_Type |
7073 E_Limited_Private_Subtype
=>
7074 Write_Str
("Private_View");
7077 Write_Str
("Shared_Var_Assign_Proc");
7080 Write_Str
("Field22??");
7082 end Write_Field22_Name
;
7084 ------------------------
7085 -- Write_Field23_Name --
7086 ------------------------
7088 procedure Write_Field23_Name
(Id
: Entity_Id
) is
7092 Write_Str
("Associated_Final_Chain");
7095 Write_Str
("Packed_Array_Type");
7098 Write_Str
("Entry_Cancel_Parameter");
7101 Write_Str
("Protected_Operation");
7103 when E_Discriminant
=>
7104 Write_Str
("CR_Discriminant");
7106 when E_Enumeration_Type
=>
7107 Write_Str
("Enum_Pos_To_Rep");
7111 Write_Str
("Extra_Constrained");
7113 when E_Generic_Function |
7115 E_Generic_Procedure
=>
7116 Write_Str
("Inner_Instances");
7118 when Concurrent_Kind |
7119 Incomplete_Or_Private_Kind |
7123 Write_Str
("Stored_Constraint");
7127 Write_Str
("Generic_Renamings");
7130 if Is_Generic_Instance
(Id
) then
7131 Write_Str
("Generic_Renamings");
7133 Write_Str
("Limited Views");
7136 -- What about Privals_Chain for protected operations ???
7139 Write_Str
("Privals_Chain");
7142 Write_Str
("Field23??");
7144 end Write_Field23_Name
;
7146 -------------------------
7147 -- Iterator Procedures --
7148 -------------------------
7150 procedure Proc_Next_Component
(N
: in out Node_Id
) is
7152 N
:= Next_Component
(N
);
7153 end Proc_Next_Component
;
7155 procedure Proc_Next_Discriminant
(N
: in out Node_Id
) is
7157 N
:= Next_Discriminant
(N
);
7158 end Proc_Next_Discriminant
;
7160 procedure Proc_Next_Formal
(N
: in out Node_Id
) is
7162 N
:= Next_Formal
(N
);
7163 end Proc_Next_Formal
;
7165 procedure Proc_Next_Formal_With_Extras
(N
: in out Node_Id
) is
7167 N
:= Next_Formal_With_Extras
(N
);
7168 end Proc_Next_Formal_With_Extras
;
7170 procedure Proc_Next_Index
(N
: in out Node_Id
) is
7172 N
:= Next_Index
(N
);
7173 end Proc_Next_Index
;
7175 procedure Proc_Next_Inlined_Subprogram
(N
: in out Node_Id
) is
7177 N
:= Next_Inlined_Subprogram
(N
);
7178 end Proc_Next_Inlined_Subprogram
;
7180 procedure Proc_Next_Literal
(N
: in out Node_Id
) is
7182 N
:= Next_Literal
(N
);
7183 end Proc_Next_Literal
;
7185 procedure Proc_Next_Stored_Discriminant
(N
: in out Node_Id
) is
7187 N
:= Next_Stored_Discriminant
(N
);
7188 end Proc_Next_Stored_Discriminant
;