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|
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- S E M . C H 7 --
-- --
-- B o d y --
-- --
-- --
-- Copyright (C) 1992-2002, Free Software Foundation, Inc. --
-- --
-- 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 2, 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. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING. If not, write --
-- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
-- MA 02111-1307, USA. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
-- This package contains the routines to process package specifications and
-- bodies. The most important semantic aspects of package processing are the
-- handling of private and full declarations, and the construction of
-- dispatch tables for tagged types.
with Atree; use Atree;
with Debug; use Debug;
with Einfo; use Einfo;
with Elists; use Elists;
with Errout; use Errout;
with Exp_Disp; use Exp_Disp;
with Exp_Dbug; use Exp_Dbug;
with Lib; use Lib;
with Lib.Xref; use Lib.Xref;
with Namet; use Namet;
with Nmake; use Nmake;
with Nlists; use Nlists;
with Opt; use Opt;
with Output; use Output;
with Sem; use Sem;
with Sem_Cat; use Sem_Cat;
with Sem_Ch3; use Sem_Ch3;
with Sem_Ch6; use Sem_Ch6;
with Sem_Ch8; use Sem_Ch8;
with Sem_Ch12; use Sem_Ch12;
with Sem_Util; use Sem_Util;
with Sem_Warn; use Sem_Warn;
with Snames; use Snames;
with Stand; use Stand;
with Sinfo; use Sinfo;
with Sinput; use Sinput;
with Style;
package body Sem_Ch7 is
-----------------------------------
-- Handling private declarations --
-----------------------------------
-- The principle that each entity has a single defining occurrence clashes
-- with the presence of two separate definitions for private types: the
-- first is the private type declaration, and the second is the full type
-- declaration. It is important that all references to the type point to
-- the same defining occurrence, namely the first one. To enforce the two
-- separate views of the entity, the corresponding information is swapped
-- between the two declarations. Outside of the package, the defining
-- occurrence only contains the private declaration information, while in
-- the private part and the body of the package the defining occurrence
-- contains the full declaration. To simplify the swap, the defining
-- occurrence that currently holds the private declaration points to the
-- full declaration. During semantic processing the defining occurrence
-- also points to a list of private dependents, that is to say access types
-- or composite types whose designated types or component types are
-- subtypes or derived types of the private type in question. After the
-- full declaration has been seen, the private dependents are updated to
-- indicate that they have full definitions.
-----------------------
-- Local Subprograms --
-----------------------
procedure Install_Composite_Operations (P : Entity_Id);
-- Composite types declared in the current scope may depend on
-- types that were private at the point of declaration, and whose
-- full view is now in scope. Indicate that the corresponding
-- operations on the composite type are available.
function Is_Private_Base_Type (E : Entity_Id) return Boolean;
-- True for a private type that is not a subtype.
function Is_Visible_Dependent (Dep : Entity_Id) return Boolean;
-- If the private dependent is a private type whose full view is
-- derived from the parent type, its full properties are revealed
-- only if we are in the immediate scope of the private dependent.
-- Should this predicate be tightened further???
procedure Preserve_Full_Attributes (Priv, Full : Entity_Id);
-- Copy to the private declaration the attributes of the full view
-- that need to be available for the partial view also.
procedure Declare_Inherited_Private_Subprograms (Id : Entity_Id);
-- Called upon entering the private part of a public child package
-- and the body of a nested package, to potentially declare certain
-- inherited subprograms that were inherited by types in the visible
-- part, but whose declaration was deferred because the parent
-- operation was private and not visible at that point. These
-- subprograms are located by traversing the visible part declarations
-- looking for nonprivate type extensions and then examining each of
-- the primitive operations of such types to find those that were
-- inherited but declared with a special internal name. Each such
-- operation is now declared as an operation with a normal name (using
-- the name of the parent operation) and replaces the previous implicit
-- operation in the primitive operations list of the type. If the
-- inherited private operation has been overridden, then it's
-- replaced by the overriding operation.
--------------------------
-- Analyze_Package_Body --
--------------------------
procedure Analyze_Package_Body (N : Node_Id) is
Loc : constant Source_Ptr := Sloc (N);
HSS : Node_Id;
Body_Id : Entity_Id;
Spec_Id : Entity_Id;
Last_Spec_Entity : Entity_Id;
New_N : Node_Id;
Pack_Decl : Node_Id;
begin
-- Find corresponding package specification, and establish the
-- current scope. The visible defining entity for the package is the
-- defining occurrence in the spec. On exit from the package body, all
-- body declarations are attached to the defining entity for the body,
-- but the later is never used for name resolution. In this fashion
-- there is only one visible entity that denotes the package.
if Debug_Flag_C then
Write_Str ("==== Compiling package body ");
Write_Name (Chars (Defining_Entity (N)));
Write_Str (" from ");
Write_Location (Loc);
Write_Eol;
end if;
-- Set Body_Id. Note that this will be reset to point to the
-- generic copy later on in the generic case.
Body_Id := Defining_Entity (N);
if Present (Corresponding_Spec (N)) then
-- Body is body of package instantiation. Corresponding spec
-- has already been set.
Spec_Id := Corresponding_Spec (N);
Pack_Decl := Unit_Declaration_Node (Spec_Id);
else
Spec_Id := Current_Entity_In_Scope (Defining_Entity (N));
if Present (Spec_Id)
and then Is_Package (Spec_Id)
then
Pack_Decl := Unit_Declaration_Node (Spec_Id);
if Nkind (Pack_Decl) = N_Package_Renaming_Declaration then
Error_Msg_N ("cannot supply body for package renaming", N);
return;
elsif Present (Corresponding_Body (Pack_Decl)) then
Error_Msg_N ("redefinition of package body", N);
return;
end if;
else
Error_Msg_N ("missing specification for package body", N);
return;
end if;
if Is_Package (Spec_Id)
and then
(Scope (Spec_Id) = Standard_Standard
or else Is_Child_Unit (Spec_Id))
and then not Unit_Requires_Body (Spec_Id)
then
if Ada_83 then
Error_Msg_N
("optional package body (not allowed in Ada 95)?", N);
else
Error_Msg_N
("spec of this package does not allow a body", N);
end if;
end if;
end if;
Set_Is_Compilation_Unit (Body_Id, Is_Compilation_Unit (Spec_Id));
Style.Check_Identifier (Body_Id, Spec_Id);
if Is_Child_Unit (Spec_Id) then
if Nkind (Parent (N)) /= N_Compilation_Unit then
Error_Msg_NE
("body of child unit& cannot be an inner package", N, Spec_Id);
end if;
Set_Is_Child_Unit (Body_Id);
end if;
-- Generic package case
if Ekind (Spec_Id) = E_Generic_Package then
-- Disable expansion and perform semantic analysis on copy.
-- The unannotated body will be used in all instantiations.
Body_Id := Defining_Entity (N);
Set_Ekind (Body_Id, E_Package_Body);
Set_Scope (Body_Id, Scope (Spec_Id));
Set_Body_Entity (Spec_Id, Body_Id);
Set_Spec_Entity (Body_Id, Spec_Id);
New_N := Copy_Generic_Node (N, Empty, Instantiating => False);
Rewrite (N, New_N);
-- Update Body_Id to point to the copied node for the remainder
-- of the processing.
Body_Id := Defining_Entity (N);
Start_Generic;
end if;
-- The Body_Id is that of the copied node in the generic case, the
-- current node otherwise. Note that N was rewritten above, so we
-- must be sure to get the latest Body_Id value.
Set_Ekind (Body_Id, E_Package_Body);
Set_Body_Entity (Spec_Id, Body_Id);
Set_Spec_Entity (Body_Id, Spec_Id);
-- Defining name for the package body is not a visible entity: Only
-- the defining name for the declaration is visible.
Set_Etype (Body_Id, Standard_Void_Type);
Set_Scope (Body_Id, Scope (Spec_Id));
Set_Corresponding_Spec (N, Spec_Id);
Set_Corresponding_Body (Pack_Decl, Body_Id);
-- The body entity is not used for semantics or code generation, but
-- it is attached to the entity list of the enclosing scope to simplify
-- the listing of back-annotations for the types it main contain.
if Scope (Spec_Id) /= Standard_Standard then
Append_Entity (Body_Id, Scope (Spec_Id));
end if;
-- Indicate that we are currently compiling the body of the package.
Set_In_Package_Body (Spec_Id);
Set_Has_Completion (Spec_Id);
Last_Spec_Entity := Last_Entity (Spec_Id);
New_Scope (Spec_Id);
Set_Categorization_From_Pragmas (N);
Install_Visible_Declarations (Spec_Id);
Install_Private_Declarations (Spec_Id);
Install_Composite_Operations (Spec_Id);
if Ekind (Spec_Id) = E_Generic_Package then
Set_Use (Generic_Formal_Declarations (Pack_Decl));
end if;
Set_Use (Visible_Declarations (Specification (Pack_Decl)));
Set_Use (Private_Declarations (Specification (Pack_Decl)));
-- This is a nested package, so it may be necessary to declare
-- certain inherited subprograms that are not yet visible because
-- the parent type's subprograms are now visible.
if Ekind (Scope (Spec_Id)) = E_Package
and then Scope (Spec_Id) /= Standard_Standard
then
Declare_Inherited_Private_Subprograms (Spec_Id);
end if;
if Present (Declarations (N)) then
Analyze_Declarations (Declarations (N));
end if;
HSS := Handled_Statement_Sequence (N);
if Present (HSS) then
Process_End_Label (HSS, 't', Spec_Id);
Analyze (HSS);
-- Check that elaboration code in a preelaborable package body is
-- empty other than null statements and labels (RM 10.2.1(6)).
Validate_Null_Statement_Sequence (N);
end if;
Validate_Categorization_Dependency (N, Spec_Id);
Check_Completion (Body_Id);
-- Generate start of body reference. Note that we do this fairly late,
-- because the call will use In_Extended_Main_Source_Unit as a check,
-- and we want to make sure that Corresponding_Stub links are set
Generate_Reference (Spec_Id, Body_Id, 'b', Set_Ref => False);
-- For a generic package, collect global references and mark
-- them on the original body so that they are not resolved
-- again at the point of instantiation.
if Ekind (Spec_Id) /= E_Package then
Save_Global_References (Original_Node (N));
End_Generic;
end if;
-- The entities of the package body have so far been chained onto
-- the declaration chain for the spec. That's been fine while we
-- were in the body, since we wanted them to be visible, but now
-- that we are leaving the package body, they are no longer visible,
-- so we remove them from the entity chain of the package spec entity,
-- and copy them to the entity chain of the package body entity, where
-- they will never again be visible.
if Present (Last_Spec_Entity) then
Set_First_Entity (Body_Id, Next_Entity (Last_Spec_Entity));
Set_Next_Entity (Last_Spec_Entity, Empty);
Set_Last_Entity (Body_Id, Last_Entity (Spec_Id));
Set_Last_Entity (Spec_Id, Last_Spec_Entity);
else
Set_First_Entity (Body_Id, First_Entity (Spec_Id));
Set_Last_Entity (Body_Id, Last_Entity (Spec_Id));
Set_First_Entity (Spec_Id, Empty);
Set_Last_Entity (Spec_Id, Empty);
end if;
End_Package_Scope (Spec_Id);
-- All entities declared in body are not visible.
declare
E : Entity_Id;
begin
E := First_Entity (Body_Id);
while Present (E) loop
Set_Is_Immediately_Visible (E, False);
Set_Is_Potentially_Use_Visible (E, False);
Set_Is_Hidden (E);
-- Child units may appear on the entity list (for example if
-- they appear in the context of a subunit) but they are not
-- body entities.
if not Is_Child_Unit (E) then
Set_Is_Package_Body_Entity (E);
end if;
Next_Entity (E);
end loop;
end;
Check_References (Body_Id);
-- The processing so far has made all entities of the package body
-- public (i.e. externally visible to the linker). This is in general
-- necessary, since inlined or generic bodies, for which code is
-- generated in other units, may need to see these entities. The
-- following loop runs backwards from the end of the entities of the
-- package body making these entities invisible until we reach a
-- referencer, i.e. a declaration that could reference a previous
-- declaration, a generic body or an inlined body, or a stub (which
-- may contain either of these). This is of course an approximation,
-- but it is conservative and definitely correct.
-- We only do this at the outer (library) level non-generic packages.
-- The reason is simply to cut down on the number of external symbols
-- generated, so this is simply an optimization of the efficiency
-- of the compilation process. It has no other effect.
if (Scope (Spec_Id) = Standard_Standard or else Is_Child_Unit (Spec_Id))
and then not Is_Generic_Unit (Spec_Id)
and then Present (Declarations (N))
then
Make_Non_Public_Where_Possible : declare
Discard : Boolean;
function Has_Referencer
(L : List_Id;
Outer : Boolean)
return Boolean;
-- Traverse the given list of declarations in reverse order.
-- Return True as soon as a referencer is reached. Return
-- False if none is found. The Outer parameter is True for
-- the outer level call, and False for inner level calls for
-- nested packages. If Outer is True, then any entities up
-- to the point of hitting a referencer get their Is_Public
-- flag cleared, so that the entities will be treated as
-- static entities in the C sense, and need not have fully
-- qualified names. For inner levels, we need all names to
-- be fully qualified to deal with the same name appearing
-- in parallel packages (right now this is tied to their
-- being external).
--------------------
-- Has_Referencer --
--------------------
function Has_Referencer
(L : List_Id;
Outer : Boolean)
return Boolean
is
D : Node_Id;
E : Entity_Id;
K : Node_Kind;
S : Entity_Id;
begin
if No (L) then
return False;
end if;
D := Last (L);
while Present (D) loop
K := Nkind (D);
if K in N_Body_Stub then
return True;
elsif K = N_Subprogram_Body then
if Acts_As_Spec (D) then
E := Defining_Entity (D);
-- An inlined body acts as a referencer. Note also
-- that we never reset Is_Public for an inlined
-- subprogram. Gigi requires Is_Public to be set.
-- Note that we test Has_Pragma_Inline here rather
-- than Is_Inlined. We are compiling this for a
-- client, and it is the client who will decide
-- if actual inlining should occur, so we need to
-- assume that the procedure could be inlined for
-- the purpose of accessing global entities.
if Has_Pragma_Inline (E) then
return True;
else
Set_Is_Public (E, False);
end if;
else
E := Corresponding_Spec (D);
if Present (E)
and then (Is_Generic_Unit (E)
or else Has_Pragma_Inline (E)
or else Is_Inlined (E))
then
return True;
end if;
end if;
-- Processing for package bodies
elsif K = N_Package_Body
and then Present (Corresponding_Spec (D))
then
E := Corresponding_Spec (D);
-- Generic package body is a referencer. It would
-- seem that we only have to consider generics that
-- can be exported, i.e. where the corresponding spec
-- is the spec of the current package, but because of
-- nested instantiations, a fully private generic
-- body may export other private body entities.
if Is_Generic_Unit (E) then
return True;
-- For non-generic package body, recurse into body
-- unless this is an instance, we ignore instances
-- since they cannot have references that affect
-- outer entities.
elsif not Is_Generic_Instance (E) then
if Has_Referencer
(Declarations (D), Outer => False)
then
return True;
end if;
end if;
-- Processing for package specs, recurse into declarations.
-- Again we skip this for the case of generic instances.
elsif K = N_Package_Declaration then
S := Specification (D);
if not Is_Generic_Unit (Defining_Entity (S)) then
if Has_Referencer
(Private_Declarations (S), Outer => False)
then
return True;
elsif Has_Referencer
(Visible_Declarations (S), Outer => False)
then
return True;
end if;
end if;
-- Objects and exceptions need not be public if we have
-- not encountered a referencer so far. We only reset
-- the flag for outer level entities that are not
-- imported/exported, and which have no interface name.
elsif K = N_Object_Declaration
or else K = N_Exception_Declaration
or else K = N_Subprogram_Declaration
then
E := Defining_Entity (D);
if Outer
and then not Is_Imported (E)
and then not Is_Exported (E)
and then No (Interface_Name (E))
then
Set_Is_Public (E, False);
end if;
end if;
Prev (D);
end loop;
return False;
end Has_Referencer;
-- Start of processing for Make_Non_Public_Where_Possible
begin
Discard := Has_Referencer (Declarations (N), Outer => True);
end Make_Non_Public_Where_Possible;
end if;
-- If expander is not active, then here is where we turn off the
-- In_Package_Body flag, otherwise it is turned off at the end of
-- the corresponding expansion routine. If this is an instance body,
-- we need to qualify names of local entities, because the body may
-- have been compiled as a preliminary to another instantiation.
if not Expander_Active then
Set_In_Package_Body (Spec_Id, False);
if Is_Generic_Instance (Spec_Id)
and then Operating_Mode = Generate_Code
then
Qualify_Entity_Names (N);
end if;
end if;
end Analyze_Package_Body;
---------------------------------
-- Analyze_Package_Declaration --
---------------------------------
procedure Analyze_Package_Declaration (N : Node_Id) is
Id : constant Node_Id := Defining_Entity (N);
PF : Boolean;
begin
Generate_Definition (Id);
Enter_Name (Id);
Set_Ekind (Id, E_Package);
Set_Etype (Id, Standard_Void_Type);
New_Scope (Id);
PF := Is_Pure (Enclosing_Lib_Unit_Entity);
Set_Is_Pure (Id, PF);
Set_Categorization_From_Pragmas (N);
if Debug_Flag_C then
Write_Str ("==== Compiling package spec ");
Write_Name (Chars (Id));
Write_Str (" from ");
Write_Location (Sloc (N));
Write_Eol;
end if;
Analyze (Specification (N));
Validate_Categorization_Dependency (N, Id);
End_Package_Scope (Id);
-- For a compilation unit, indicate whether it needs a body, and
-- whether elaboration warnings may be meaningful on it.
if Nkind (Parent (N)) = N_Compilation_Unit then
Set_Body_Required (Parent (N), Unit_Requires_Body (Id));
if not Body_Required (Parent (N)) then
Set_Suppress_Elaboration_Warnings (Id);
end if;
Validate_RT_RAT_Component (N);
end if;
-- Clear Not_Source_Assigned on all variables in the package spec,
-- because at this stage some client, or the body, or a child package,
-- may modify variables in the declaration. Note that we wait till now
-- to reset these flags, because during analysis of the declaration,
-- the flags correctly indicated the status up to that point. We
-- similarly clear any Is_True_Constant indications.
declare
E : Entity_Id;
begin
E := First_Entity (Id);
while Present (E) loop
if Ekind (E) = E_Variable then
Set_Not_Source_Assigned (E, False);
Set_Is_True_Constant (E, False);
end if;
Next_Entity (E);
end loop;
end;
end Analyze_Package_Declaration;
-----------------------------------
-- Analyze_Package_Specification --
-----------------------------------
procedure Analyze_Package_Specification (N : Node_Id) is
Id : constant Entity_Id := Defining_Entity (N);
Orig_Decl : constant Node_Id := Original_Node (Parent (N));
Vis_Decls : constant List_Id := Visible_Declarations (N);
Priv_Decls : constant List_Id := Private_Declarations (N);
E : Entity_Id;
L : Entity_Id;
Public_Child : Boolean := False;
function Is_Public_Child (Child, Unit : Entity_Id) return Boolean;
-- Child and Unit are entities of compilation units. True if Child
-- is a public child of Parent as defined in 10.1.1
function Is_Public_Child (Child, Unit : Entity_Id) return Boolean is
begin
if not Is_Private_Descendant (Child) then
return True;
else
if Child = Unit then
return not Private_Present (
Parent (Unit_Declaration_Node (Child)));
else
return Is_Public_Child (Scope (Child), Unit);
end if;
end if;
end Is_Public_Child;
-- Start of processing for Analyze_Package_Specification
begin
if Present (Vis_Decls) then
Analyze_Declarations (Vis_Decls);
end if;
-- Verify that incomplete types have received full declarations.
E := First_Entity (Id);
while Present (E) loop
if Ekind (E) = E_Incomplete_Type
and then No (Full_View (E))
then
Error_Msg_N ("no declaration in visible part for incomplete}", E);
end if;
Next_Entity (E);
end loop;
if Is_Remote_Call_Interface (Id)
and then Nkind (Parent (Parent (N))) = N_Compilation_Unit
then
Validate_RCI_Declarations (Id);
end if;
-- Save global references in the visible declarations, before
-- installing private declarations of parent unit if there is one,
-- because the privacy status of types defined in the parent will
-- change. This is only relevant for generic child units, but is
-- done in all cases for uniformity.
if Ekind (Id) = E_Generic_Package
and then Nkind (Orig_Decl) = N_Generic_Package_Declaration
then
declare
Orig_Spec : constant Node_Id := Specification (Orig_Decl);
Save_Priv : constant List_Id := Private_Declarations (Orig_Spec);
begin
Set_Private_Declarations (Orig_Spec, Empty_List);
Save_Global_References (Orig_Decl);
Set_Private_Declarations (Orig_Spec, Save_Priv);
end;
end if;
-- If package is a public child unit, then make the private
-- declarations of the parent visible.
if Present (Parent_Spec (Parent (N))) then
declare
Par : Entity_Id := Id;
Pack_Decl : Node_Id;
begin
while Scope (Par) /= Standard_Standard
and then Is_Public_Child (Id, Par)
loop
Public_Child := True;
Par := Scope (Par);
Install_Private_Declarations (Par);
Pack_Decl := Unit_Declaration_Node (Par);
Set_Use (Private_Declarations (Specification (Pack_Decl)));
end loop;
end;
end if;
-- Analyze private part if present. The flag In_Private_Part is
-- reset in End_Package_Scope.
L := Last_Entity (Id);
if Present (Priv_Decls) then
L := Last_Entity (Id);
Set_In_Private_Part (Id);
-- Upon entering a public child's private part, it may be
-- necessary to declare subprograms that were derived in
-- the package visible part but not yet made visible.
if Public_Child then
Declare_Inherited_Private_Subprograms (Id);
end if;
Analyze_Declarations (Priv_Decls);
-- The first private entity is the immediate follower of the last
-- visible entity, if there was one.
if Present (L) then
Set_First_Private_Entity (Id, Next_Entity (L));
else
Set_First_Private_Entity (Id, First_Entity (Id));
end if;
-- There may be inherited private subprograms that need to be
-- declared, even in the absence of an explicit private part.
-- If there are any public declarations in the package and
-- the package is a public child unit, then an implicit private
-- part is assumed.
elsif Present (L) and then Public_Child then
Set_In_Private_Part (Id);
Declare_Inherited_Private_Subprograms (Id);
Set_First_Private_Entity (Id, Next_Entity (L));
end if;
-- Check rule of 3.6(11), which in general requires
-- waiting till all full types have been seen.
E := First_Entity (Id);
while Present (E) loop
if Ekind (E) = E_Record_Type or else Ekind (E) = E_Array_Type then
Check_Aliased_Component_Types (E);
end if;
Next_Entity (E);
end loop;
if Ekind (Id) = E_Generic_Package
and then Nkind (Orig_Decl) = N_Generic_Package_Declaration
and then Present (Priv_Decls)
then
-- Save global references in private declarations, ignoring the
-- visible declarations that were processed earlier.
declare
Orig_Spec : constant Node_Id := Specification (Orig_Decl);
Save_Vis : constant List_Id := Visible_Declarations (Orig_Spec);
Save_Form : constant List_Id :=
Generic_Formal_Declarations (Orig_Decl);
begin
Set_Visible_Declarations (Orig_Spec, Empty_List);
Set_Generic_Formal_Declarations (Orig_Decl, Empty_List);
Save_Global_References (Orig_Decl);
Set_Generic_Formal_Declarations (Orig_Decl, Save_Form);
Set_Visible_Declarations (Orig_Spec, Save_Vis);
end;
end if;
Process_End_Label (N, 'e', Id);
end Analyze_Package_Specification;
--------------------------------------
-- Analyze_Private_Type_Declaration --
--------------------------------------
procedure Analyze_Private_Type_Declaration (N : Node_Id) is
PF : constant Boolean := Is_Pure (Enclosing_Lib_Unit_Entity);
Id : Entity_Id := Defining_Identifier (N);
begin
Generate_Definition (Id);
Set_Is_Pure (Id, PF);
Init_Size_Align (Id);
if (Ekind (Current_Scope) /= E_Package
and then Ekind (Current_Scope) /= E_Generic_Package)
or else In_Private_Part (Current_Scope)
then
Error_Msg_N ("invalid context for private declaration", N);
end if;
New_Private_Type (N, Id, N);
Set_Depends_On_Private (Id);
Set_Has_Delayed_Freeze (Id);
end Analyze_Private_Type_Declaration;
-------------------------------------------
-- Declare_Inherited_Private_Subprograms --
-------------------------------------------
procedure Declare_Inherited_Private_Subprograms (Id : Entity_Id) is
E : Entity_Id;
Op_List : Elist_Id;
Op_Elmt : Elmt_Id;
Op_Elmt_2 : Elmt_Id;
Prim_Op : Entity_Id;
New_Op : Entity_Id;
Parent_Subp : Entity_Id;
Found_Explicit : Boolean;
Decl_Privates : Boolean;
function Is_Primitive_Of (T : Entity_Id; S : Entity_Id) return Boolean;
-- Check whether an inherited subprogram is an operation of an
-- untagged derived type.
---------------------
-- Is_Primitive_Of --
---------------------
function Is_Primitive_Of (T : Entity_Id; S : Entity_Id) return Boolean is
Formal : Entity_Id;
begin
if Etype (S) = T then
return True;
else
Formal := First_Formal (S);
while Present (Formal) loop
if Etype (Formal) = T then
return True;
end if;
Next_Formal (Formal);
end loop;
return False;
end if;
end Is_Primitive_Of;
-- Start of processing for Declare_Inherited_Private_Subprograms
begin
E := First_Entity (Id);
while Present (E) loop
-- If the entity is a nonprivate type extension whose parent
-- type is declared in an open scope, then the type may have
-- inherited operations that now need to be made visible.
-- Ditto if the entity is a formal derived type in a child unit.
if ((Is_Derived_Type (E) and then not Is_Private_Type (E))
or else
(Nkind (Parent (E)) = N_Private_Extension_Declaration
and then Is_Generic_Type (E)))
and then In_Open_Scopes (Scope (Etype (E)))
and then E = Base_Type (E)
then
if Is_Tagged_Type (E) then
Op_List := Primitive_Operations (E);
Op_Elmt := First_Elmt (Op_List);
New_Op := Empty;
Decl_Privates := False;
while Present (Op_Elmt) loop
Prim_Op := Node (Op_Elmt);
-- If the primitive operation is an implicit operation
-- with an internal name whose parent operation has
-- a normal name, then we now need to either declare the
-- operation (i.e., make it visible), or replace it
-- by an overriding operation if one exists.
if Present (Alias (Prim_Op))
and then not Comes_From_Source (Prim_Op)
and then Is_Internal_Name (Chars (Prim_Op))
and then not Is_Internal_Name (Chars (Alias (Prim_Op)))
then
Parent_Subp := Alias (Prim_Op);
Found_Explicit := False;
Op_Elmt_2 := Next_Elmt (Op_Elmt);
while Present (Op_Elmt_2) loop
if Chars (Node (Op_Elmt_2)) = Chars (Parent_Subp)
and then Type_Conformant (Prim_Op, Node (Op_Elmt_2))
then
-- The private inherited operation has been
-- overridden by an explicit subprogram, so
-- change the private op's list element to
-- designate the explicit so the explicit
-- one will get the right dispatching slot.
New_Op := Node (Op_Elmt_2);
Replace_Elmt (Op_Elmt, New_Op);
Remove_Elmt (Op_List, Op_Elmt_2);
Found_Explicit := True;
Decl_Privates := True;
exit;
end if;
Next_Elmt (Op_Elmt_2);
end loop;
if not Found_Explicit then
Derive_Subprogram
(New_Op, Alias (Prim_Op), E, Etype (E));
pragma Assert
(Is_Dispatching_Operation (New_Op)
and then Node (Last_Elmt (Op_List)) = New_Op);
-- Substitute the new operation for the old one
-- in the type's primitive operations list. Since
-- the new operation was also just added to the end
-- of list, the last element must be removed.
-- (Question: is there a simpler way of declaring
-- the operation, say by just replacing the name
-- of the earlier operation, reentering it in the
-- in the symbol table (how?), and marking it as
-- private???)
Replace_Elmt (Op_Elmt, New_Op);
Remove_Last_Elmt (Op_List);
Decl_Privates := True;
end if;
end if;
Next_Elmt (Op_Elmt);
end loop;
-- The type's DT attributes need to be recalculated
-- in the case where private dispatching operations
-- have been added or overridden. Normally this action
-- occurs during type freezing, but we force it here
-- since the type may already have been frozen (e.g.,
-- if the type's package has an empty private part).
-- This can only be done if expansion is active, otherwise
-- Tag may not be present.
if Decl_Privates
and then Expander_Active
then
Set_All_DT_Position (E);
end if;
else
-- Non-tagged type, scan forward to locate
-- inherited hidden operations.
Prim_Op := Next_Entity (E);
while Present (Prim_Op) loop
if Is_Subprogram (Prim_Op)
and then Present (Alias (Prim_Op))
and then not Comes_From_Source (Prim_Op)
and then Is_Internal_Name (Chars (Prim_Op))
and then not Is_Internal_Name (Chars (Alias (Prim_Op)))
and then Is_Primitive_Of (E, Prim_Op)
then
Derive_Subprogram (New_Op, Alias (Prim_Op), E, Etype (E));
end if;
Next_Entity (Prim_Op);
end loop;
end if;
end if;
Next_Entity (E);
end loop;
end Declare_Inherited_Private_Subprograms;
-----------------------
-- End_Package_Scope --
-----------------------
procedure End_Package_Scope (P : Entity_Id) is
begin
Uninstall_Declarations (P);
Pop_Scope;
end End_Package_Scope;
---------------------------
-- Exchange_Declarations --
---------------------------
procedure Exchange_Declarations (Id : Entity_Id) is
Full_Id : constant Entity_Id := Full_View (Id);
H1 : constant Entity_Id := Homonym (Id);
Next1 : constant Entity_Id := Next_Entity (Id);
H2 : Entity_Id;
Next2 : Entity_Id;
begin
-- If missing full declaration for type, nothing to exchange
if No (Full_Id) then
return;
end if;
-- Otherwise complete the exchange, and preserve semantic links
Next2 := Next_Entity (Full_Id);
H2 := Homonym (Full_Id);
-- Reset full declaration pointer to reflect the switched entities
-- and readjust the next entity chains.
Exchange_Entities (Id, Full_Id);
Set_Next_Entity (Id, Next1);
Set_Homonym (Id, H1);
Set_Full_View (Full_Id, Id);
Set_Next_Entity (Full_Id, Next2);
Set_Homonym (Full_Id, H2);
end Exchange_Declarations;
----------------------------------
-- Install_Composite_Operations --
----------------------------------
procedure Install_Composite_Operations (P : Entity_Id) is
Id : Entity_Id;
begin
Id := First_Entity (P);
while Present (Id) loop
if Is_Type (Id)
and then (Is_Limited_Composite (Id)
or else Is_Private_Composite (Id))
and then No (Private_Component (Id))
then
Set_Is_Limited_Composite (Id, False);
Set_Is_Private_Composite (Id, False);
end if;
Next_Entity (Id);
end loop;
end Install_Composite_Operations;
----------------------------
-- Install_Package_Entity --
----------------------------
procedure Install_Package_Entity (Id : Entity_Id) is
begin
if not Is_Internal (Id) then
if Debug_Flag_E then
Write_Str ("Install: ");
Write_Name (Chars (Id));
Write_Eol;
end if;
if not Is_Child_Unit (Id) then
Set_Is_Immediately_Visible (Id);
end if;
end if;
end Install_Package_Entity;
----------------------------------
-- Install_Private_Declarations --
----------------------------------
procedure Install_Private_Declarations (P : Entity_Id) is
Id : Entity_Id;
Priv_Elmt : Elmt_Id;
Priv : Entity_Id;
Full : Entity_Id;
begin
-- First exchange declarations for private types, so that the
-- full declaration is visible. For each private type, we check
-- its Private_Dependents list and also exchange any subtypes of
-- or derived types from it. Finally, if this is a Taft amendment
-- type, the incomplete declaration is irrelevant, and we want to
-- link the eventual full declaration with the original private
-- one so we also skip the exchange.
Id := First_Entity (P);
while Present (Id) and then Id /= First_Private_Entity (P) loop
if Is_Private_Base_Type (Id)
and then Comes_From_Source (Full_View (Id))
and then Present (Full_View (Id))
and then Scope (Full_View (Id)) = Scope (Id)
and then Ekind (Full_View (Id)) /= E_Incomplete_Type
then
Priv_Elmt := First_Elmt (Private_Dependents (Id));
-- If there is a use-type clause on the private type, set the
-- full view accordingly.
Set_In_Use (Full_View (Id), In_Use (Id));
Full := Full_View (Id);
if Is_Private_Base_Type (Full)
and then Has_Private_Declaration (Full)
and then Nkind (Parent (Full)) = N_Full_Type_Declaration
and then In_Open_Scopes (Scope (Etype (Full)))
and then In_Package_Body (Current_Scope)
and then not Is_Private_Type (Etype (Full))
then
-- This is the completion of a private type by a derivation
-- from another private type which is not private anymore. This
-- can only happen in a package nested within a child package,
-- when the parent type is defined in the parent unit. At this
-- point the current type is not private either, and we have to
-- install the underlying full view, which is now visible.
if No (Full_View (Full))
and then Present (Underlying_Full_View (Full))
then
Set_Full_View (Id, Underlying_Full_View (Full));
Set_Underlying_Full_View (Full, Empty);
Set_Is_Frozen (Full_View (Id));
end if;
end if;
Exchange_Declarations (Id);
Set_Is_Immediately_Visible (Id);
while Present (Priv_Elmt) loop
Priv := Node (Priv_Elmt);
-- Before the exchange, verify that the presence of the
-- Full_View field. It will be empty if the entity
-- has already been installed due to a previous call.
if Present (Full_View (Priv))
and then Is_Visible_Dependent (Priv)
then
-- For each subtype that is swapped, we also swap the
-- reference to it in Private_Dependents, to allow access
-- to it when we swap them out in End_Package_Scope.
Replace_Elmt (Priv_Elmt, Full_View (Priv));
Exchange_Declarations (Priv);
Set_Is_Immediately_Visible
(Priv, In_Open_Scopes (Scope (Priv)));
Set_Is_Potentially_Use_Visible
(Priv, Is_Potentially_Use_Visible (Node (Priv_Elmt)));
end if;
Next_Elmt (Priv_Elmt);
end loop;
null;
end if;
Next_Entity (Id);
end loop;
-- Next make other declarations in the private part visible as well.
Id := First_Private_Entity (P);
while Present (Id) loop
Install_Package_Entity (Id);
Next_Entity (Id);
end loop;
-- Indicate that the private part is currently visible, so it can be
-- properly reset on exit.
Set_In_Private_Part (P);
end Install_Private_Declarations;
----------------------------------
-- Install_Visible_Declarations --
----------------------------------
procedure Install_Visible_Declarations (P : Entity_Id) is
Id : Entity_Id;
begin
Id := First_Entity (P);
while Present (Id) and then Id /= First_Private_Entity (P) loop
Install_Package_Entity (Id);
Next_Entity (Id);
end loop;
end Install_Visible_Declarations;
----------------------
-- Is_Fully_Visible --
----------------------
-- The full declaration of a private type is visible in the private
-- part of the package declaration, and in the package body, at which
-- point the full declaration must have been given.
function Is_Fully_Visible (Type_Id : Entity_Id) return Boolean is
S : constant Entity_Id := Scope (Type_Id);
begin
if Is_Generic_Type (Type_Id) then
return False;
elsif In_Private_Part (S) then
return Present (Full_View (Type_Id));
else
return In_Package_Body (S);
end if;
end Is_Fully_Visible;
--------------------------
-- Is_Private_Base_Type --
--------------------------
function Is_Private_Base_Type (E : Entity_Id) return Boolean is
begin
return Ekind (E) = E_Private_Type
or else Ekind (E) = E_Limited_Private_Type
or else Ekind (E) = E_Record_Type_With_Private;
end Is_Private_Base_Type;
--------------------------
-- Is_Visible_Dependent --
--------------------------
function Is_Visible_Dependent (Dep : Entity_Id) return Boolean
is
S : constant Entity_Id := Scope (Dep);
begin
-- Renamings created for actual types have the visibility of the
-- actual.
if Ekind (S) = E_Package
and then Is_Generic_Instance (S)
and then (Is_Generic_Actual_Type (Dep)
or else Is_Generic_Actual_Type (Full_View (Dep)))
then
return True;
elsif not (Is_Derived_Type (Dep))
and then Is_Derived_Type (Full_View (Dep))
then
return In_Open_Scopes (S);
else
return True;
end if;
end Is_Visible_Dependent;
----------------------------
-- May_Need_Implicit_Body --
----------------------------
procedure May_Need_Implicit_Body (E : Entity_Id) is
P : constant Node_Id := Unit_Declaration_Node (E);
S : constant Node_Id := Parent (P);
B : Node_Id;
Decls : List_Id;
begin
if not Has_Completion (E)
and then Nkind (P) = N_Package_Declaration
and then Present (Activation_Chain_Entity (P))
then
B :=
Make_Package_Body (Sloc (E),
Defining_Unit_Name => Make_Defining_Identifier (Sloc (E),
Chars => Chars (E)),
Declarations => New_List);
if Nkind (S) = N_Package_Specification then
if Present (Private_Declarations (S)) then
Decls := Private_Declarations (S);
else
Decls := Visible_Declarations (S);
end if;
else
Decls := Declarations (S);
end if;
Append (B, Decls);
Analyze (B);
end if;
end May_Need_Implicit_Body;
----------------------
-- New_Private_Type --
----------------------
procedure New_Private_Type (N : Node_Id; Id : Entity_Id; Def : Node_Id) is
begin
Enter_Name (Id);
if Limited_Present (Def) then
Set_Ekind (Id, E_Limited_Private_Type);
else
Set_Ekind (Id, E_Private_Type);
end if;
Set_Etype (Id, Id);
Set_Has_Delayed_Freeze (Id);
Set_Is_First_Subtype (Id);
Init_Size_Align (Id);
Set_Is_Constrained (Id,
No (Discriminant_Specifications (N))
and then not Unknown_Discriminants_Present (N));
-- Set tagged flag before processing discriminants, to catch
-- illegal usage.
Set_Is_Tagged_Type (Id, Tagged_Present (Def));
Set_Discriminant_Constraint (Id, No_Elist);
Set_Girder_Constraint (Id, No_Elist);
if Present (Discriminant_Specifications (N)) then
New_Scope (Id);
Process_Discriminants (N);
End_Scope;
elsif Unknown_Discriminants_Present (N) then
Set_Has_Unknown_Discriminants (Id);
end if;
Set_Private_Dependents (Id, New_Elmt_List);
if Tagged_Present (Def) then
Set_Ekind (Id, E_Record_Type_With_Private);
Make_Class_Wide_Type (Id);
Set_Primitive_Operations (Id, New_Elmt_List);
Set_Is_Abstract (Id, Abstract_Present (Def));
Set_Is_Limited_Record (Id, Limited_Present (Def));
Set_Has_Delayed_Freeze (Id, True);
elsif Abstract_Present (Def) then
Error_Msg_N ("only a tagged type can be abstract", N);
end if;
end New_Private_Type;
------------------------------
-- Preserve_Full_Attributes --
------------------------------
procedure Preserve_Full_Attributes (Priv, Full : Entity_Id) is
Priv_Is_Base_Type : constant Boolean := Priv = Base_Type (Priv);
begin
Set_Size_Info (Priv, (Full));
Set_RM_Size (Priv, RM_Size (Full));
Set_Size_Known_At_Compile_Time (Priv, Size_Known_At_Compile_Time
(Full));
if Priv_Is_Base_Type then
Set_Is_Controlled (Priv, Is_Controlled (Base_Type (Full)));
Set_Finalize_Storage_Only (Priv, Finalize_Storage_Only
(Base_Type (Full)));
Set_Has_Task (Priv, Has_Task (Base_Type (Full)));
Set_Has_Controlled_Component (Priv, Has_Controlled_Component
(Base_Type (Full)));
end if;
Set_Freeze_Node (Priv, Freeze_Node (Full));
if Is_Tagged_Type (Priv)
and then Is_Tagged_Type (Full)
and then not Error_Posted (Full)
then
if Priv_Is_Base_Type then
Set_Access_Disp_Table (Priv, Access_Disp_Table
(Base_Type (Full)));
end if;
Set_First_Entity (Priv, First_Entity (Full));
Set_Last_Entity (Priv, Last_Entity (Full));
end if;
end Preserve_Full_Attributes;
----------------------------
-- Uninstall_Declarations --
----------------------------
procedure Uninstall_Declarations (P : Entity_Id) is
Id : Entity_Id;
Decl : Node_Id := Unit_Declaration_Node (P);
Full : Entity_Id;
Priv_Elmt : Elmt_Id;
Priv_Sub : Entity_Id;
function Type_In_Use (T : Entity_Id) return Boolean;
-- Check whether type or base type appear in an active use_type clause.
function Type_In_Use (T : Entity_Id) return Boolean is
begin
return Scope (Base_Type (T)) = P
and then (In_Use (T) or else In_Use (Base_Type (T)));
end Type_In_Use;
-- Start of processing for Uninstall_Declarations
begin
Id := First_Entity (P);
while Present (Id) and then Id /= First_Private_Entity (P) loop
if Debug_Flag_E then
Write_Str ("unlinking visible entity ");
Write_Int (Int (Id));
Write_Eol;
end if;
-- On exit from the package scope, we must preserve the visibility
-- established by use clauses in the current scope. Two cases:
-- a) If the entity is an operator, it may be a primitive operator of
-- a type for which there is a visible use-type clause.
-- b) for other entities, their use-visibility is determined by a
-- visible use clause for the package itself. For a generic instance,
-- the instantiation of the formals appears in the visible part,
-- but the formals are private and remain so.
if Ekind (Id) = E_Function
and then Is_Operator_Symbol_Name (Chars (Id))
and then not Is_Hidden (Id)
then
Set_Is_Potentially_Use_Visible (Id,
In_Use (P)
or else Type_In_Use (Etype (Id))
or else Type_In_Use (Etype (First_Formal (Id)))
or else (Present (Next_Formal (First_Formal (Id)))
and then
Type_In_Use
(Etype (Next_Formal (First_Formal (Id))))));
else
Set_Is_Potentially_Use_Visible (Id,
In_Use (P) and not Is_Hidden (Id));
end if;
-- Local entities are not immediately visible outside of the package.
Set_Is_Immediately_Visible (Id, False);
if Is_Tagged_Type (Id) and then Ekind (Id) = E_Record_Type then
Check_Abstract_Overriding (Id);
end if;
if (Ekind (Id) = E_Private_Type
or else Ekind (Id) = E_Limited_Private_Type)
and then No (Full_View (Id))
and then not Is_Generic_Type (Id)
and then not Is_Derived_Type (Id)
then
Error_Msg_N ("missing full declaration for private type&", Id);
elsif Ekind (Id) = E_Record_Type_With_Private
and then not Is_Generic_Type (Id)
and then No (Full_View (Id))
then
if Nkind (Parent (Id)) = N_Private_Type_Declaration then
Error_Msg_N ("missing full declaration for private type&", Id);
else
Error_Msg_N
("missing full declaration for private extension", Id);
end if;
elsif Ekind (Id) = E_Constant
and then No (Constant_Value (Id))
and then No (Full_View (Id))
and then not Is_Imported (Id)
and then (Nkind (Parent (Id)) /= N_Object_Declaration
or else not No_Initialization (Parent (Id)))
then
Error_Msg_N ("missing full declaration for deferred constant", Id);
end if;
Next_Entity (Id);
end loop;
-- If the specification was installed as the parent of a public child
-- unit, the private declarations were not installed, and there is
-- nothing to do.
if not In_Private_Part (P) then
return;
else
Set_In_Private_Part (P, False);
end if;
-- Make private entities invisible and exchange full and private
-- declarations for private types.
while Present (Id) loop
if Debug_Flag_E then
Write_Str ("unlinking private entity ");
Write_Int (Int (Id));
Write_Eol;
end if;
if Is_Tagged_Type (Id) and then Ekind (Id) = E_Record_Type then
Check_Abstract_Overriding (Id);
end if;
Set_Is_Immediately_Visible (Id, False);
if Is_Private_Base_Type (Id)
and then Present (Full_View (Id))
then
Full := Full_View (Id);
-- If the partial view is not declared in the visible part
-- of the package (as is the case when it is a type derived
-- from some other private type in the private part if the
-- current package), no exchange takes place.
if No (Parent (Id))
or else List_Containing (Parent (Id))
/= Visible_Declarations (Specification (Decl))
then
goto Next_Id;
end if;
-- The entry in the private part points to the full declaration,
-- which is currently visible. Exchange them so only the private
-- type declaration remains accessible, and link private and
-- full declaration in the opposite direction. Before the actual
-- exchange, we copy back attributes of the full view that
-- must be available to the partial view too.
Preserve_Full_Attributes (Id, Full);
Set_Is_Potentially_Use_Visible (Id, In_Use (P));
if Is_Indefinite_Subtype (Full)
and then not Is_Indefinite_Subtype (Id)
then
Error_Msg_N
("full view of type must be definite subtype", Full);
end if;
Priv_Elmt := First_Elmt (Private_Dependents (Id));
Exchange_Declarations (Id);
-- Swap out the subtypes and derived types of Id that were
-- compiled in this scope, or installed previously by
-- Install_Private_Declarations.
-- Before we do the swap, we verify the presence of the
-- Full_View field which may be empty due to a swap by
-- a previous call to End_Package_Scope (e.g. from the
-- freezing mechanism).
while Present (Priv_Elmt) loop
Priv_Sub := Node (Priv_Elmt);
if Present (Full_View (Priv_Sub)) then
if Scope (Priv_Sub) = P
or else not In_Open_Scopes (Scope (Priv_Sub))
then
Set_Is_Immediately_Visible (Priv_Sub, False);
end if;
if Is_Visible_Dependent (Priv_Sub) then
Preserve_Full_Attributes
(Priv_Sub, Full_View (Priv_Sub));
Replace_Elmt (Priv_Elmt, Full_View (Priv_Sub));
Exchange_Declarations (Priv_Sub);
end if;
end if;
Next_Elmt (Priv_Elmt);
end loop;
elsif Ekind (Id) = E_Incomplete_Type
and then No (Full_View (Id))
then
-- Mark Taft amendment types
Set_Has_Completion_In_Body (Id);
elsif not Is_Child_Unit (Id)
and then (not Is_Private_Type (Id)
or else No (Full_View (Id)))
then
Set_Is_Hidden (Id);
Set_Is_Potentially_Use_Visible (Id, False);
end if;
<<Next_Id>>
Next_Entity (Id);
end loop;
end Uninstall_Declarations;
------------------------
-- Unit_Requires_Body --
------------------------
function Unit_Requires_Body (P : Entity_Id) return Boolean is
E : Entity_Id;
begin
-- Imported entity never requires body. Right now, only
-- subprograms can be imported, but perhaps in the future
-- we will allow import of packages.
if Is_Imported (P) then
return False;
-- Body required if library package with pragma Elaborate_Body
elsif Has_Pragma_Elaborate_Body (P) then
return True;
-- Body required if subprogram
elsif (Is_Subprogram (P)
or else
Ekind (P) = E_Generic_Function
or else
Ekind (P) = E_Generic_Procedure)
then
return True;
-- Treat a block as requiring a body
elsif Ekind (P) = E_Block then
return True;
elsif Ekind (P) = E_Package
and then Nkind (Parent (P)) = N_Package_Specification
and then Present (Generic_Parent (Parent (P)))
then
declare
G_P : Entity_Id := Generic_Parent (Parent (P));
begin
if Has_Pragma_Elaborate_Body (G_P) then
return True;
end if;
end;
end if;
-- Otherwise search entity chain for entity requiring completion.
E := First_Entity (P);
while Present (E) loop
-- Always ignore child units. Child units get added to the entity
-- list of a parent unit, but are not original entities of the
-- parent, and so do not affect whether the parent needs a body.
if Is_Child_Unit (E) then
null;
-- Otherwise test to see if entity requires a completion
elsif (Is_Overloadable (E)
and then Ekind (E) /= E_Enumeration_Literal
and then Ekind (E) /= E_Operator
and then not Is_Abstract (E)
and then not Has_Completion (E))
or else
(Ekind (E) = E_Package
and then E /= P
and then not Has_Completion (E)
and then Unit_Requires_Body (E))
or else
(Ekind (E) = E_Incomplete_Type and then No (Full_View (E)))
or else
((Ekind (E) = E_Task_Type or else
Ekind (E) = E_Protected_Type)
and then not Has_Completion (E))
or else
(Ekind (E) = E_Generic_Package and then E /= P
and then not Has_Completion (E)
and then Unit_Requires_Body (E))
or else
(Ekind (E) = E_Generic_Function
and then not Has_Completion (E))
or else
(Ekind (E) = E_Generic_Procedure
and then not Has_Completion (E))
then
return True;
-- Entity that does not require completion
else
null;
end if;
Next_Entity (E);
end loop;
return False;
end Unit_Requires_Body;
end Sem_Ch7;
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