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------------------------------------------------------------------------------
-- --
-- GNAT RUN-TIME COMPONENTS --
-- --
-- A D A . T A G S --
-- --
-- S p e c --
-- --
-- Copyright (C) 1992-2022, Free Software Foundation, Inc. --
-- --
-- This specification is derived from the Ada Reference Manual for use with --
-- GNAT. The copyright notice above, and the license provisions that follow --
-- apply solely to the contents of the part following the private keyword. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- As a special exception under Section 7 of GPL version 3, you are granted --
-- additional permissions described in the GCC Runtime Library Exception, --
-- version 3.1, as published by the Free Software Foundation. --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
-- For performance analysis, take into account that the operations in this
-- package provide the guarantee that all dispatching calls on primitive
-- operations of tagged types and interfaces take constant time (in terms
-- of source lines executed), that is to say, the cost of these calls is
-- independent of the number of primitives of the type or interface, and
-- independent of the number of ancestors or interface progenitors that a
-- tagged type may have.
-- The following subprograms of the public part of this package take constant
-- time (in terms of source lines executed):
-- Expanded_Name, Wide_Expanded_Name, Wide_Wide_Expanded_Name, External_Tag,
-- Is_Abstract, Is_Descendant_At_Same_Level, Parent_Tag,
-- Descendant_Tag (when used with a library-level tagged type),
-- Internal_Tag (when used with a library-level tagged type).
-- The following subprograms of the public part of this package execute in
-- time that is not constant (in terms of sources line executed):
-- Internal_Tag (when used with a locally defined tagged type), because in
-- such cases this routine processes the external tag, extracts from it an
-- address available there, and converts it into the tag value returned by
-- this function. The number of instructions executed is not constant since
-- it depends on the length of the external tag string.
-- Descendant_Tag (when used with a locally defined tagged type), because
-- it relies on the subprogram Internal_Tag() to provide its functionality.
-- Interface_Ancestor_Tags, because this function returns a table whose
-- length depends on the number of interfaces covered by a tagged type.
with System.Storage_Elements;
with Ada.Unchecked_Conversion;
package Ada.Tags is
pragma Preelaborate;
-- In accordance with Ada 2005 AI-362
type Tag is private;
pragma Preelaborable_Initialization (Tag);
No_Tag : constant Tag;
function Expanded_Name (T : Tag) return String;
function Wide_Expanded_Name (T : Tag) return Wide_String;
pragma Ada_05 (Wide_Expanded_Name);
function Wide_Wide_Expanded_Name (T : Tag) return Wide_Wide_String;
pragma Ada_05 (Wide_Wide_Expanded_Name);
function External_Tag (T : Tag) return String;
function Internal_Tag (External : String) return Tag;
function Descendant_Tag
(External : String;
Ancestor : Tag) return Tag;
pragma Ada_05 (Descendant_Tag);
function Is_Descendant_At_Same_Level
(Descendant : Tag;
Ancestor : Tag) return Boolean;
pragma Ada_05 (Is_Descendant_At_Same_Level);
function Parent_Tag (T : Tag) return Tag;
pragma Ada_05 (Parent_Tag);
type Tag_Array is array (Positive range <>) of Tag;
function Interface_Ancestor_Tags (T : Tag) return Tag_Array;
pragma Ada_05 (Interface_Ancestor_Tags);
function Is_Abstract (T : Tag) return Boolean;
pragma Ada_2012 (Is_Abstract);
Tag_Error : exception;
private
-- Structure of the GNAT Primary Dispatch Table
-- +--------------------+
-- | Signature |
-- +--------------------+
-- | Tagged_Kind |
-- +--------------------+ Predef Prims
-- | Predef_Prims -----------------------------> +------------+
-- +--------------------+ | table of |
-- | Offset_To_Top | | predefined |
-- +--------------------+ | primitives |
-- |Typeinfo_Ptr/TSD_Ptr---> Type Specific Data +------------+
-- Tag ---> +--------------------+ +-------------------+
-- | table of | | inheritance depth |
-- : primitive ops : +-------------------+
-- | pointers | | access level |
-- +--------------------+ +-------------------+
-- | alignment |
-- +-------------------+
-- | expanded name |
-- +-------------------+
-- | external tag |
-- +-------------------+
-- | hash table link |
-- +-------------------+
-- | transportable |
-- +-------------------+
-- | is_abstract |
-- +-------------------+
-- | needs finalization|
-- +-------------------+
-- | Ifaces_Table ---> Interface Data
-- +-------------------+ +------------+
-- Select Specific Data <---- SSD | | Nb_Ifaces |
-- +------------------+ +-------------------+ +------------+
-- |table of primitive| | table of | | table |
-- : operation : : ancestor : : of :
-- | kinds | | tags | | interfaces |
-- +------------------+ +-------------------+ +------------+
-- |table of |
-- : entry :
-- | indexes |
-- +------------------+
-- Structure of the GNAT Secondary Dispatch Table
-- +--------------------+
-- | Signature |
-- +--------------------+
-- | Tagged_Kind |
-- +--------------------+ Predef Prims
-- | Predef_Prims -----------------------------> +------------+
-- +--------------------+ | table of |
-- | Offset_To_Top | | predefined |
-- +--------------------+ | primitives |
-- | OSD_Ptr |---> Object Specific Data | thunks |
-- Tag ---> +--------------------+ +---------------+ +------------+
-- | table of | | num prim ops |
-- : primitive op : +---------------+
-- | thunk pointers | | table of |
-- +--------------------+ + primitive |
-- | op offsets |
-- +---------------+
-- The runtime information kept for each tagged type is separated into two
-- objects: the Dispatch Table and the Type Specific Data record.
package SSE renames System.Storage_Elements;
subtype Cstring is String (Positive);
type Cstring_Ptr is access all Cstring;
pragma No_Strict_Aliasing (Cstring_Ptr);
-- Declarations for the table of interfaces
type Offset_To_Top_Function_Ptr is
access function (This : System.Address) return SSE.Storage_Offset;
-- Type definition used to call the function that is generated by the
-- expander in case of tagged types with discriminants that have secondary
-- dispatch tables. This function provides the Offset_To_Top value in this
-- specific case.
type Interface_Data_Element is record
Iface_Tag : Tag;
Static_Offset_To_Top : Boolean;
Offset_To_Top_Value : SSE.Storage_Offset;
Offset_To_Top_Func : Offset_To_Top_Function_Ptr;
Secondary_DT : Tag;
end record;
-- If some ancestor of the tagged type has discriminants the field
-- Static_Offset_To_Top is False and the field Offset_To_Top_Func
-- is used to store the access to the function generated by the
-- expander which provides this value; otherwise Static_Offset_To_Top
-- is True and such value is stored in the Offset_To_Top_Value field.
-- Secondary_DT references a secondary dispatch table whose contents
-- are pointers to the primitives of the tagged type that cover the
-- interface primitives. Secondary_DT gives support to dispatching
-- calls through interface types associated with Generic Dispatching
-- Constructors.
type Interfaces_Array is array (Natural range <>) of Interface_Data_Element;
type Interface_Data (Nb_Ifaces : Positive) is record
Ifaces_Table : Interfaces_Array (1 .. Nb_Ifaces);
end record;
type Interface_Data_Ptr is access all Interface_Data;
-- Table of abstract interfaces used to give support to backward interface
-- conversions and also to IW_Membership.
-- Primitive operation kinds. These values differentiate the kinds of
-- callable entities stored in the dispatch table. Certain kinds may
-- not be used, but are added for completeness.
type Prim_Op_Kind is
(POK_Function,
POK_Procedure,
POK_Protected_Entry,
POK_Protected_Function,
POK_Protected_Procedure,
POK_Task_Entry,
POK_Task_Function,
POK_Task_Procedure);
-- Select specific data types
type Select_Specific_Data_Element is record
Index : Positive;
Kind : Prim_Op_Kind;
end record;
type Select_Specific_Data_Array is
array (Positive range <>) of Select_Specific_Data_Element;
type Select_Specific_Data (Nb_Prim : Positive) is record
SSD_Table : Select_Specific_Data_Array (1 .. Nb_Prim);
-- NOTE: Nb_Prim is the number of non-predefined primitive operations
end record;
type Select_Specific_Data_Ptr is access all Select_Specific_Data;
-- A table used to store the primitive operation kind and entry index of
-- primitive subprograms of a type that implements a limited interface.
-- The Select Specific Data table resides in the Type Specific Data of a
-- type. This construct is used in the handling of dispatching triggers
-- in select statements.
type Prim_Ptr is access procedure;
type Address_Array is array (Positive range <>) of Prim_Ptr;
subtype Dispatch_Table is Address_Array (1 .. 1);
-- Used by GDB to identify the _tags and traverse the run-time structure
-- associated with tagged types. For compatibility with older versions of
-- gdb, its name must not be changed.
type Tag is access all Dispatch_Table;
pragma No_Strict_Aliasing (Tag);
type Interface_Tag is access all Dispatch_Table;
No_Tag : constant Tag := null;
-- The expander ensures that Tag objects reference the Prims_Ptr component
-- of the wrapper.
type Tag_Ptr is access all Tag;
pragma No_Strict_Aliasing (Tag_Ptr);
type Offset_To_Top_Ptr is access all SSE.Storage_Offset;
pragma No_Strict_Aliasing (Offset_To_Top_Ptr);
type Tag_Table is array (Natural range <>) of Tag;
type Size_Ptr is
access function (A : System.Address) return Long_Long_Integer;
type Type_Specific_Data (Idepth : Natural) is record
-- The discriminant Idepth is the Inheritance Depth Level: Used to
-- implement the membership test associated with single inheritance of
-- tagged types in constant-time. It also indicates the size of the
-- Tags_Table component.
Access_Level : Natural;
-- Accessibility level required to give support to Ada 2005 nested type
-- extensions. This feature allows safe nested type extensions by
-- shifting the accessibility checks to certain operations, rather than
-- being enforced at the type declaration. In particular, by performing
-- run-time accessibility checks on class-wide allocators, class-wide
-- function return, and class-wide stream I/O, the danger of objects
-- outliving their type declaration can be eliminated (Ada 2005: AI-344)
Alignment : Natural;
Expanded_Name : Cstring_Ptr;
External_Tag : Cstring_Ptr;
HT_Link : Tag_Ptr;
-- Components used to support to the Ada.Tags subprograms in RM 3.9
-- Note: Expanded_Name is referenced by GDB to determine the actual name
-- of the tagged type. Its requirements are: 1) it must have this exact
-- name, and 2) its contents must point to a C-style Nul terminated
-- string containing its expanded name. GDB has no requirement on a
-- given position inside the record.
Transportable : Boolean;
-- Used to check RM E.4(18), set for types that satisfy the requirements
-- for being used in remote calls as actuals for classwide formals or as
-- return values for classwide functions.
Is_Abstract : Boolean;
-- True if the type is abstract (Ada 2012: AI05-0173)
Needs_Finalization : Boolean;
-- Used to dynamically check whether an object is controlled or not
Size_Func : Size_Ptr;
-- Pointer to the subprogram computing the _size of the object. Used by
-- the run-time whenever a call to the 'size primitive is required. We
-- cannot assume that the contents of dispatch tables are addresses
-- because in some architectures the ABI allows descriptors.
Interfaces_Table : Interface_Data_Ptr;
-- Pointer to the table of interface tags. It is used to implement the
-- membership test associated with interfaces and also for backward
-- abstract interface type conversions (Ada 2005:AI-251)
SSD : Select_Specific_Data_Ptr;
-- Pointer to a table of records used in dispatching selects. This field
-- has a meaningful value for all tagged types that implement a limited,
-- protected, synchronized or task interfaces and have non-predefined
-- primitive operations.
Tags_Table : Tag_Table (0 .. Idepth);
-- Table of ancestor tags. Its size actually depends on the inheritance
-- depth level of the tagged type.
end record;
type Type_Specific_Data_Ptr is access all Type_Specific_Data;
pragma No_Strict_Aliasing (Type_Specific_Data_Ptr);
-- Declarations for the dispatch table record
type Signature_Kind is
(Unknown,
Primary_DT,
Secondary_DT);
-- Tagged type kinds with respect to concurrency and limitedness
type Tagged_Kind is
(TK_Abstract_Limited_Tagged,
TK_Abstract_Tagged,
TK_Limited_Tagged,
TK_Protected,
TK_Tagged,
TK_Task);
type Dispatch_Table_Wrapper (Num_Prims : Natural) is record
Signature : Signature_Kind;
Tag_Kind : Tagged_Kind;
Predef_Prims : System.Address;
-- Pointer to the dispatch table of predefined Ada primitives
-- According to the C++ ABI the components Offset_To_Top and TSD are
-- stored just "before" the dispatch table, and they are referenced with
-- negative offsets referring to the base of the dispatch table. The
-- _Tag (or the VTable_Ptr in C++ terminology) must point to the base
-- of the virtual table, just after these components, to point to the
-- Prims_Ptr table.
Offset_To_Top : SSE.Storage_Offset;
-- Offset between the _Tag field and the field that contains the
-- reference to this dispatch table. For primary dispatch tables it is
-- zero. For secondary dispatch tables: if the parent record type (if
-- any) has a compile-time-known size, then Offset_To_Top contains the
-- expected value, otherwise it contains SSE.Storage_Offset'Last and the
-- actual offset is to be found in the tagged record, right after the
-- field that contains the reference to this dispatch table. See the
-- implementation of Ada.Tags.Offset_To_Top for the corresponding logic.
TSD : System.Address;
Prims_Ptr : aliased Address_Array (1 .. Num_Prims);
-- The size of the Prims_Ptr array actually depends on the tagged type
-- to which it applies. For each tagged type, the expander computes the
-- actual array size, allocating the Dispatch_Table record accordingly.
end record;
type Dispatch_Table_Ptr is access all Dispatch_Table_Wrapper;
pragma No_Strict_Aliasing (Dispatch_Table_Ptr);
-- The following type declaration is used by the compiler when the program
-- is compiled with restriction No_Dispatching_Calls. It is also used with
-- interface types to generate the tag and run-time information associated
-- with them.
type No_Dispatch_Table_Wrapper is record
NDT_TSD : System.Address;
NDT_Prims_Ptr : Natural;
end record;
DT_Predef_Prims_Size : constant SSE.Storage_Count :=
SSE.Storage_Count
(1 * (Standard'Address_Size /
System.Storage_Unit));
-- Size of the Predef_Prims field of the Dispatch_Table
DT_Offset_To_Top_Size : constant SSE.Storage_Count :=
SSE.Storage_Count
(1 * (Standard'Address_Size /
System.Storage_Unit));
-- Size of the Offset_To_Top field of the Dispatch Table
DT_Typeinfo_Ptr_Size : constant SSE.Storage_Count :=
SSE.Storage_Count
(1 * (Standard'Address_Size /
System.Storage_Unit));
-- Size of the Typeinfo_Ptr field of the Dispatch Table
use type System.Storage_Elements.Storage_Offset;
DT_Offset_To_Top_Offset : constant SSE.Storage_Count :=
DT_Typeinfo_Ptr_Size
+ DT_Offset_To_Top_Size;
DT_Predef_Prims_Offset : constant SSE.Storage_Count :=
DT_Typeinfo_Ptr_Size
+ DT_Offset_To_Top_Size
+ DT_Predef_Prims_Size;
-- Offset from Prims_Ptr to Predef_Prims component
-- Object Specific Data record of secondary dispatch tables
type Object_Specific_Data_Array is array (Positive range <>) of Positive;
type Object_Specific_Data (OSD_Num_Prims : Positive) is record
OSD_Table : Object_Specific_Data_Array (1 .. OSD_Num_Prims);
-- Table used in secondary DT to reference their counterpart in the
-- select specific data (in the TSD of the primary DT). This construct
-- is used in the handling of dispatching triggers in select statements.
-- Nb_Prim is the number of non-predefined primitive operations.
end record;
type Object_Specific_Data_Ptr is access all Object_Specific_Data;
pragma No_Strict_Aliasing (Object_Specific_Data_Ptr);
-- The following subprogram specifications are placed here instead of the
-- package body to see them from the frontend through rtsfind.
function Base_Address (This : System.Address) return System.Address;
-- Ada 2005 (AI-251): Displace "This" to point to the base address of the
-- object (that is, the address of the primary tag of the object).
procedure Check_TSD (TSD : Type_Specific_Data_Ptr);
-- Ada 2012 (AI-113): Raise Program_Error if the external tag of this TSD
-- is the same as the external tag for some other tagged type declaration.
function Displace (This : System.Address; T : Tag) return System.Address;
-- Ada 2005 (AI-251): Displace "This" to point to the secondary dispatch
-- table of T.
function Secondary_Tag (T, Iface : Tag) return Tag;
-- Ada 2005 (AI-251): Given a primary tag T associated with a tagged type
-- Typ, search for the secondary tag of the interface type Iface covered
-- by Typ.
function DT (T : Tag) return Dispatch_Table_Ptr;
-- Return the pointer to the TSD record associated with T
function Get_Entry_Index (T : Tag; Position : Positive) return Positive;
-- Ada 2005 (AI-251): Return a primitive operation's entry index (if entry)
-- given a dispatch table T and a position of a primitive operation in T.
function Get_Offset_Index
(T : Tag;
Position : Positive) return Positive;
-- Ada 2005 (AI-251): Given a pointer to a secondary dispatch table (T)
-- and a position of an operation in the DT, retrieve the corresponding
-- operation's position in the primary dispatch table from the Offset
-- Specific Data table of T.
function Get_Prim_Op_Kind
(T : Tag;
Position : Positive) return Prim_Op_Kind;
-- Ada 2005 (AI-251): Return a primitive operation's kind given a dispatch
-- table T and a position of a primitive operation in T.
function Get_Tagged_Kind (T : Tag) return Tagged_Kind;
-- Ada 2005 (AI-345): Given a pointer to either a primary or a secondary
-- dispatch table, return the tagged kind of a type in the context of
-- concurrency and limitedness.
function IW_Membership (This : System.Address; T : Tag) return Boolean;
-- Ada 2005 (AI-251): General routine that checks if a given object
-- implements a tagged type. Its common usage is to check if Obj is in
-- Iface'Class, but it is also used to check if a class-wide interface
-- implements a given type (Iface_CW_Typ in T'Class). For example:
--
-- type I is interface;
-- type T is tagged ...
--
-- function Test (O : I'Class) is
-- begin
-- return O in T'Class.
-- end Test;
function Offset_To_Top
(This : System.Address) return SSE.Storage_Offset;
-- Ada 2005 (AI-251): Returns the current value of the Offset_To_Top
-- component available in the prologue of the dispatch table. If the parent
-- of the tagged type has discriminants this value is stored in a record
-- component just immediately after the tag component.
function Needs_Finalization (T : Tag) return Boolean;
-- A helper routine used in conjunction with finalization collections which
-- service class-wide types. The function dynamically determines whether an
-- object is controlled or has controlled components.
function Parent_Size
(Obj : System.Address;
T : Tag) return SSE.Storage_Count;
-- Computes the size the ancestor part of a tagged extension object whose
-- address is 'obj' by calling indirectly the ancestor _size function. The
-- ancestor is the parent of the type represented by tag T. This function
-- assumes that _size is always in slot one of the dispatch table.
procedure Register_Interface_Offset
(Prim_T : Tag;
Interface_T : Tag;
Is_Static : Boolean;
Offset_Value : SSE.Storage_Offset;
Offset_Func : Offset_To_Top_Function_Ptr);
-- Register in the table of interfaces of the tagged type associated with
-- Prim_T the offset of the record component associated with the progenitor
-- Interface_T (that is, the distance from "This" to the object component
-- containing the tag of the secondary dispatch table). In case of constant
-- offset, Is_Static is true and Offset_Value has such value. In case of
-- variable offset, Is_Static is false and Offset_Func is an access to
-- function that must be called to evaluate the offset.
procedure Register_Tag (T : Tag);
-- Insert the Tag and its associated external_tag in a table for the sake
-- of Internal_Tag.
procedure Set_Dynamic_Offset_To_Top
(This : System.Address;
Prim_T : Tag;
Interface_T : Tag;
Offset_Value : SSE.Storage_Offset;
Offset_Func : Offset_To_Top_Function_Ptr);
-- Ada 2005 (AI-251): The compiler generates calls to this routine only
-- when initializing the Offset_To_Top field of dispatch tables of tagged
-- types that cover interface types whose parent type has variable size
-- components.
--
-- "This" is the object whose dispatch table is being initialized. Prim_T
-- is the primary tag of such object. Interface_T is the interface tag for
-- which the secondary dispatch table is being initialized. Offset_Value
-- is the distance from "This" to the object component containing the tag
-- of the secondary dispatch table (a zero value means that this interface
-- shares the primary dispatch table). Offset_Func references a function
-- that must be called to evaluate the offset at run time. This routine
-- also takes care of registering these values in the table of interfaces
-- of the type.
procedure Set_Entry_Index (T : Tag; Position : Positive; Value : Positive);
-- Ada 2005 (AI-345): Set the entry index of a primitive operation in T's
-- TSD table indexed by Position.
procedure Set_Prim_Op_Kind
(T : Tag;
Position : Positive;
Value : Prim_Op_Kind);
-- Ada 2005 (AI-251): Set the kind of a primitive operation in T's TSD
-- table indexed by Position.
procedure Unregister_Tag (T : Tag);
-- Remove a particular tag from the external tag hash table
Max_Predef_Prims : constant Positive := 16;
-- Number of reserved slots for the following predefined ada primitives:
--
-- 1. Size
-- 2. Read
-- 3. Write
-- 4. Input
-- 5. Output
-- 6. "="
-- 7. assignment
-- 8. deep adjust
-- 9. deep finalize
-- 10. Put_Image
-- 11. async select
-- 12. conditional select
-- 13. prim_op kind
-- 14. task_id
-- 15. dispatching requeue
-- 16. timed select
--
-- The compiler checks that the value here is correct
subtype Predef_Prims_Table is Address_Array (1 .. Max_Predef_Prims);
type Predef_Prims_Table_Ptr is access Predef_Prims_Table;
pragma No_Strict_Aliasing (Predef_Prims_Table_Ptr);
type Addr_Ptr is access System.Address;
pragma No_Strict_Aliasing (Addr_Ptr);
-- This type is used by the frontend to generate the code that handles
-- dispatch table slots of types declared at the local level.
-------------------
-- CW_Membership --
-------------------
function To_Address is
new Ada.Unchecked_Conversion (Tag, System.Address);
function To_Addr_Ptr is
new Ada.Unchecked_Conversion (System.Address, Addr_Ptr);
function To_Type_Specific_Data_Ptr is
new Ada.Unchecked_Conversion (System.Address, Type_Specific_Data_Ptr);
-- Canonical implementation of Classwide Membership corresponding to:
-- Obj in Typ'Class
-- Each dispatch table contains a reference to a table of ancestors (stored
-- in the first part of the Tags_Table) and a count of the level of
-- inheritance "Idepth".
-- Obj is in Typ'Class if Typ'Tag is in the table of ancestors that are
-- contained in the dispatch table referenced by Obj'Tag . Knowing the
-- level of inheritance of both types, this can be computed in constant
-- time by the formula:
-- TSD (Obj'tag).Tags_Table (TSD (Obj'tag).Idepth - TSD (Typ'tag).Idepth)
-- = Typ'tag
function CW_Membership (Obj_Tag : Tag; Typ_Tag : Tag) return Boolean is
(declare
Obj_TSD_Ptr : constant Addr_Ptr :=
To_Addr_Ptr (To_Address (Obj_Tag) - DT_Typeinfo_Ptr_Size);
Typ_TSD_Ptr : constant Addr_Ptr :=
To_Addr_Ptr (To_Address (Typ_Tag) - DT_Typeinfo_Ptr_Size);
Obj_TSD : constant Type_Specific_Data_Ptr :=
To_Type_Specific_Data_Ptr (Obj_TSD_Ptr.all);
Typ_TSD : constant Type_Specific_Data_Ptr :=
To_Type_Specific_Data_Ptr (Typ_TSD_Ptr.all);
Pos : constant Integer := Obj_TSD.Idepth - Typ_TSD.Idepth;
begin
Pos >= 0 and then Obj_TSD.Tags_Table (Pos) = Typ_Tag);
-- Given the tag of an object and the tag associated to a type, return
-- true if Obj is in Typ'Class.
end Ada.Tags;