* expr.c (gfc_copy_shape_excluding): Change && to ||.

[official-gcc.git] / gcc / ada / a-tags.ads

------------------------------------------------------------------------------
--                                                                          --
--                         GNAT RUN-TIME COMPONENTS                         --
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--                             A D A . T A G S                              --
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--          Copyright (C) 1992-2005 Free Software Foundation, Inc.          --
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-- 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. --
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------------------------------------------------------------------------------

with System;
with System.Storage_Elements;
with Unchecked_Conversion;

package Ada.Tags is

   pragma Elaborate_Body;

   type Tag is private;

   function Expanded_Name (T : Tag) return String;

   function External_Tag (T : Tag) return String;

   function Internal_Tag (External : String) return Tag;

   Tag_Error : exception;

private

   ---------------------------------------------------------------
   -- Abstract Procedural Interface For The GNAT Dispatch Table --
   ---------------------------------------------------------------

   --  GNAT's Dispatch Table format is customizable in order to match the
   --  format used in another language. GNAT supports programs that use
   --  two different dispatch table formats at the same time: the native
   --  format that supports Ada 95 tagged types and which is described in
   --  Ada.Tags, and a foreign format for types that are imported from some
   --  other language (typically C++) which is described in Interfaces.CPP.
   --  The runtime information kept for each tagged type is separated into
   --  two objects: the Dispatch Table and the Type Specific Data record.
   --  These two objects are allocated statically using the constants:

   --      DT Size  = DT_Prologue_Size  + Nb_Prim * DT_Entry_Size
   --      TSD Size = TSD_Prologue_Size + (1 + Idepth)  * TSD_Entry_Size

   --  where Nb_prim is the number of primitive operations of the given
   --  type and Idepth its inheritance depth.

   --  The compiler generates calls to the following SET routines to
   --  initialize those structures and uses the GET functions to
   --  retreive the information when needed

   type Dispatch_Table;
   type Tag is access all Dispatch_Table;

   type Type_Specific_Data;
   type Type_Specific_Data_Ptr is access all Type_Specific_Data;

   package SSE renames System.Storage_Elements;

   function CW_Membership (Obj_Tag : Tag; Typ_Tag : Tag) return Boolean;
   --  Given the tag of an object and the tag associated to a type, return
   --  true if Obj is in Typ'Class.

   function Get_Expanded_Name (T : Tag) return System.Address;
   --  Retrieve the address of a null terminated string containing
   --  the expanded name

   function Get_External_Tag (T : Tag) return System.Address;
   --  Retrieve the address of a null terminated string containing
   --  the external name

   function Get_Prim_Op_Address
     (T        : Tag;
      Position : Positive) return System.Address;
   --  Given a pointer to a dispatch Table (T) and a position in the DT
   --  this function returns the address of the virtual function stored
   --  in it (used for dispatching calls)

   function Get_Inheritance_Depth (T : Tag) return Natural;
   --  Given a pointer to a dispatch Table, retrieves the value representing
   --  the depth in the inheritance tree (used for membership).

   function Get_RC_Offset (T : Tag) return SSE.Storage_Offset;
   --  Return the Offset of the implicit record controller when the object
   --  has controlled components. O otherwise.

   pragma Export (Ada, Get_RC_Offset, "ada__tags__get_rc_offset");
   --  This procedure is used in s-finimp to compute the deep routines
   --  it is exported manually in order to avoid changing completely the
   --  organization of the run time.

   function Get_Remotely_Callable (T : Tag) return Boolean;
   --  Return the value previously set by Set_Remotely_Callable

   function  Get_TSD (T : Tag) return System.Address;
   --  Given a pointer T to a dispatch Table, retreives the address of the
   --  record containing the Type Specific Data generated by GNAT

   procedure Inherit_DT
    (Old_T   : Tag;
     New_T   : Tag;
     Entry_Count : Natural);
   --  Entry point used to initialize the DT of a type knowing the tag
   --  of the direct ancestor and the number of primitive ops that are
   --  inherited (Entry_Count).

   procedure Inherit_TSD (Old_TSD : System.Address; New_Tag : Tag);
   --  Entry point used to initialize the TSD of a type knowing the
   --  TSD of the direct ancestor.

   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 the indirectly _size function of
   --  the ancestor. The ancestor is the parent of the type represented by
   --  tag T. This function assumes that _size is always in slot 1 of
   --  the dispatch table.

   pragma Export (Ada, Parent_Size, "ada__tags__parent_size");
   --  This procedure is used in s-finimp and is thus exported manually

   function Parent_Tag (T : Tag) return Tag;
   --  Obj is the address of a tagged object. Parent_Tag fetch the tag of the
   --  immediate ancestor (parent) of the type associated with Obj.

   pragma Export (Ada, Parent_Tag, "ada__tags__parent_tag");
   --  This procedure is used in s-finimp and is thus exported manually

   procedure Register_Tag (T : Tag);
   --  Insert the Tag and its associated external_tag in a table for the
   --  sake of Internal_Tag

   procedure Set_Inheritance_Depth
     (T     : Tag;
      Value : Natural);
   --  Given a pointer to a dispatch Table, stores the value representing
   --  the depth in the inheritance tree (the second parameter). Used during
   --  elaboration of the tagged type.

   procedure Set_Prim_Op_Address
     (T        : Tag;
      Position : Positive;
      Value    : System.Address);
   --  Given a pointer to a dispatch Table (T) and a position in the
   --  dispatch Table put the address of the virtual function in it
   --  (used for overriding)

   procedure Set_TSD (T : Tag; Value : System.Address);
   --  Given a pointer T to a dispatch Table, stores the address of the record
   --  containing the Type Specific Data generated by GNAT

   procedure Set_Expanded_Name (T : Tag; Value : System.Address);
   --  Set the address of the string containing the expanded name
   --  in the Dispatch table

   procedure Set_External_Tag (T : Tag; Value : System.Address);
   --  Set the address of the string containing the external tag
   --  in the Dispatch table

   procedure Set_RC_Offset (T : Tag; Value : SSE.Storage_Offset);
   --  Sets the Offset of the implicit record controller when the object
   --  has controlled components. Set to O otherwise.

   procedure Set_Remotely_Callable (T : Tag; Value : Boolean);
   --  Set to true if the type has been declared in a context described
   --  in E.4 (18).

   function TSD (T : Tag) return Type_Specific_Data_Ptr;
   --  This function is conceptually equivalent to Get_TSD, but
   --  returning a Type_Specific_Data_Ptr type (rather than an Address)
   --  simplifies the implementation of the other subprograms.

   DT_Prologue_Size : constant SSE.Storage_Count :=
                        SSE.Storage_Count
                          (2 * (Standard'Address_Size / System.Storage_Unit));
   --  Size of the first part of the dispatch table

   DT_Typeinfo_Ptr_Size : constant SSE.Storage_Count :=
                            SSE.Storage_Count
                              (Standard'Address_Size / System.Storage_Unit);
   --  Size of the Typeinfo_Ptr field of the Dispatch Table.

   DT_Entry_Size : constant SSE.Storage_Count :=
                     SSE.Storage_Count
                       (1 * (Standard'Address_Size / System.Storage_Unit));
   --  Size of each primitive operation entry in the Dispatch Table.

   TSD_Prologue_Size : constant SSE.Storage_Count :=
                         SSE.Storage_Count
                           (6 * Standard'Address_Size / System.Storage_Unit);
   --  Size of the first part of the type specific data

   TSD_Entry_Size : constant SSE.Storage_Count :=
     SSE.Storage_Count (1 * (Standard'Address_Size / System.Storage_Unit));
   --  Size of each ancestor tag entry in the TSD

   type Address_Array is array (Natural range <>) of System.Address;
   pragma Suppress (Index_Check, On => Address_Array);
   --  The reason we suppress index checks is that in the body, objects
   --  of this type are declared with a dummy size of 1, the actual size
   --  depending on the number of primitive operations.

   function To_Type_Specific_Data_Ptr is
     new Unchecked_Conversion (System.Address, Type_Specific_Data_Ptr);

   function To_Address is
     new Unchecked_Conversion (Type_Specific_Data_Ptr, System.Address);

   function To_Address is
     new Unchecked_Conversion (Tag, System.Address);

   type Addr_Ptr is access System.Address;

   function To_Addr_Ptr is
      new Unchecked_Conversion (System.Address, Addr_Ptr);

   --  Primitive dispatching operations are always inlined, to facilitate
   --  use in a minimal/no run-time environment for high integrity use.

   pragma Inline_Always (CW_Membership);
   pragma Inline_Always (Get_Expanded_Name);
   pragma Inline_Always (Get_Inheritance_Depth);
   pragma Inline_Always (Get_Prim_Op_Address);
   pragma Inline_Always (Get_RC_Offset);
   pragma Inline_Always (Get_Remotely_Callable);
   pragma Inline_Always (Get_TSD);
   pragma Inline_Always (Inherit_DT);
   pragma Inline_Always (Inherit_TSD);
   pragma Inline_Always (Register_Tag);
   pragma Inline_Always (Set_Expanded_Name);
   pragma Inline_Always (Set_External_Tag);
   pragma Inline_Always (Set_Inheritance_Depth);
   pragma Inline_Always (Set_Prim_Op_Address);
   pragma Inline_Always (Set_RC_Offset);
   pragma Inline_Always (Set_Remotely_Callable);
   pragma Inline_Always (Set_TSD);
   pragma Inline_Always (TSD);

end Ada.Tags;