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|
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- E X P _ D B U G --
-- --
-- B o d y --
-- --
-- Copyright (C) 1996-2010, 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 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. 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 COPYING3. If not, go to --
-- http://www.gnu.org/licenses for a complete copy of the license. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with Alloc; use Alloc;
with Atree; use Atree;
with Debug; use Debug;
with Einfo; use Einfo;
with Nlists; use Nlists;
with Nmake; use Nmake;
with Opt; use Opt;
with Output; use Output;
with Sem_Aux; use Sem_Aux;
with Sem_Eval; use Sem_Eval;
with Sem_Util; use Sem_Util;
with Sinfo; use Sinfo;
with Stand; use Stand;
with Stringt; use Stringt;
with Table;
with Targparm; use Targparm;
with Tbuild; use Tbuild;
with Urealp; use Urealp;
package body Exp_Dbug is
-- The following table is used to queue up the entities passed as
-- arguments to Qualify_Entity_Names for later processing when
-- Qualify_All_Entity_Names is called.
package Name_Qualify_Units is new Table.Table (
Table_Component_Type => Node_Id,
Table_Index_Type => Nat,
Table_Low_Bound => 1,
Table_Initial => Alloc.Name_Qualify_Units_Initial,
Table_Increment => Alloc.Name_Qualify_Units_Increment,
Table_Name => "Name_Qualify_Units");
--------------------------------
-- Use of Qualification Flags --
--------------------------------
-- There are two flags used to keep track of qualification of entities
-- Has_Fully_Qualified_Name
-- Has_Qualified_Name
-- The difference between these is as follows. Has_Qualified_Name is
-- set to indicate that the name has been qualified as required by the
-- spec of this package. As described there, this may involve the full
-- qualification for the name, but for some entities, notably procedure
-- local variables, this full qualification is not required.
-- The flag Has_Fully_Qualified_Name is set if indeed the name has been
-- fully qualified in the Ada sense. If Has_Fully_Qualified_Name is set,
-- then Has_Qualified_Name is also set, but the other way round is not
-- the case.
-- Consider the following example:
-- with ...
-- procedure X is
-- B : Ddd.Ttt;
-- procedure Y is ..
-- Here B is a procedure local variable, so it does not need fully
-- qualification. The flag Has_Qualified_Name will be set on the
-- first attempt to qualify B, to indicate that the job is done
-- and need not be redone.
-- But Y is qualified as x__y, since procedures are always fully
-- qualified, so the first time that an attempt is made to qualify
-- the name y, it will be replaced by x__y, and both flags are set.
-- Why the two flags? Well there are cases where we derive type names
-- from object names. As noted in the spec, type names are always
-- fully qualified. Suppose for example that the backend has to build
-- a padded type for variable B. then it will construct the PAD name
-- from B, but it requires full qualification, so the fully qualified
-- type name will be x__b___PAD. The two flags allow the circuit for
-- building this name to realize efficiently that b needs further
-- qualification.
--------------------
-- Homonym_Suffix --
--------------------
-- The string defined here (and its associated length) is used to
-- gather the homonym string that will be appended to Name_Buffer
-- when the name is complete. Strip_Suffixes appends to this string
-- as does Append_Homonym_Number, and Output_Homonym_Numbers_Suffix
-- appends the string to the end of Name_Buffer.
Homonym_Numbers : String (1 .. 256);
Homonym_Len : Natural := 0;
----------------------
-- Local Procedures --
----------------------
procedure Add_Uint_To_Buffer (U : Uint);
-- Add image of universal integer to Name_Buffer, updating Name_Len
procedure Add_Real_To_Buffer (U : Ureal);
-- Add nnn_ddd to Name_Buffer, where nnn and ddd are integer values of
-- the normalized numerator and denominator of the given real value.
procedure Append_Homonym_Number (E : Entity_Id);
-- If the entity E has homonyms in the same scope, then make an entry
-- in the Homonym_Numbers array, bumping Homonym_Count accordingly.
function Bounds_Match_Size (E : Entity_Id) return Boolean;
-- Determine whether the bounds of E match the size of the type. This is
-- used to determine whether encoding is required for a discrete type.
procedure Output_Homonym_Numbers_Suffix;
-- If homonym numbers are stored, then output them into Name_Buffer
procedure Prepend_String_To_Buffer (S : String);
-- Prepend given string to the contents of the string buffer, updating
-- the value in Name_Len (i.e. string is added at start of buffer).
procedure Prepend_Uint_To_Buffer (U : Uint);
-- Prepend image of universal integer to Name_Buffer, updating Name_Len
procedure Qualify_Entity_Name (Ent : Entity_Id);
-- If not already done, replaces the Chars field of the given entity
-- with the appropriate fully qualified name.
procedure Strip_Suffixes (BNPE_Suffix_Found : in out Boolean);
-- Given an qualified entity name in Name_Buffer, remove any plain X or
-- X{nb} qualification suffix. The contents of Name_Buffer is not changed
-- but Name_Len may be adjusted on return to remove the suffix. If a
-- BNPE suffix is found and stripped, then BNPE_Suffix_Found is set to
-- True. If no suffix is found, then BNPE_Suffix_Found is not modified.
-- This routine also searches for a homonym suffix, and if one is found
-- it is also stripped, and the entries are added to the global homonym
-- list (Homonym_Numbers) so that they can later be put back.
------------------------
-- Add_Real_To_Buffer --
------------------------
procedure Add_Real_To_Buffer (U : Ureal) is
begin
Add_Uint_To_Buffer (Norm_Num (U));
Add_Str_To_Name_Buffer ("_");
Add_Uint_To_Buffer (Norm_Den (U));
end Add_Real_To_Buffer;
------------------------
-- Add_Uint_To_Buffer --
------------------------
procedure Add_Uint_To_Buffer (U : Uint) is
begin
if U < 0 then
Add_Uint_To_Buffer (-U);
Add_Char_To_Name_Buffer ('m');
else
UI_Image (U, Decimal);
Add_Str_To_Name_Buffer (UI_Image_Buffer (1 .. UI_Image_Length));
end if;
end Add_Uint_To_Buffer;
---------------------------
-- Append_Homonym_Number --
---------------------------
procedure Append_Homonym_Number (E : Entity_Id) is
procedure Add_Nat_To_H (Nr : Nat);
-- Little procedure to append Nr to Homonym_Numbers
------------------
-- Add_Nat_To_H --
------------------
procedure Add_Nat_To_H (Nr : Nat) is
begin
if Nr >= 10 then
Add_Nat_To_H (Nr / 10);
end if;
Homonym_Len := Homonym_Len + 1;
Homonym_Numbers (Homonym_Len) :=
Character'Val (Nr mod 10 + Character'Pos ('0'));
end Add_Nat_To_H;
-- Start of processing for Append_Homonym_Number
begin
if Has_Homonym (E) then
declare
H : Entity_Id := Homonym (E);
Nr : Nat := 1;
begin
while Present (H) loop
if Scope (H) = Scope (E) then
Nr := Nr + 1;
end if;
H := Homonym (H);
end loop;
if Homonym_Len > 0 then
Homonym_Len := Homonym_Len + 1;
Homonym_Numbers (Homonym_Len) := '_';
end if;
Add_Nat_To_H (Nr);
end;
end if;
end Append_Homonym_Number;
-----------------------
-- Bounds_Match_Size --
-----------------------
function Bounds_Match_Size (E : Entity_Id) return Boolean is
Siz : Uint;
begin
if not Is_OK_Static_Subtype (E) then
return False;
elsif Is_Integer_Type (E)
and then Subtypes_Statically_Match (E, Base_Type (E))
then
return True;
-- Here we check if the static bounds match the natural size, which is
-- the size passed through with the debugging information. This is the
-- Esize rounded up to 8, 16, 32 or 64 as appropriate.
else
declare
Umark : constant Uintp.Save_Mark := Uintp.Mark;
Result : Boolean;
begin
if Esize (E) <= 8 then
Siz := Uint_8;
elsif Esize (E) <= 16 then
Siz := Uint_16;
elsif Esize (E) <= 32 then
Siz := Uint_32;
else
Siz := Uint_64;
end if;
if Is_Modular_Integer_Type (E) or else Is_Enumeration_Type (E) then
Result :=
Expr_Rep_Value (Type_Low_Bound (E)) = 0
and then
2 ** Siz - Expr_Rep_Value (Type_High_Bound (E)) = 1;
else
Result :=
Expr_Rep_Value (Type_Low_Bound (E)) + 2 ** (Siz - 1) = 0
and then
2 ** (Siz - 1) - Expr_Rep_Value (Type_High_Bound (E)) = 1;
end if;
Release (Umark);
return Result;
end;
end if;
end Bounds_Match_Size;
--------------------------------
-- Debug_Renaming_Declaration --
--------------------------------
function Debug_Renaming_Declaration (N : Node_Id) return Node_Id is
Loc : constant Source_Ptr := Sloc (N);
Ent : constant Node_Id := Defining_Entity (N);
Nam : constant Node_Id := Name (N);
Ren : Node_Id;
Typ : Entity_Id;
Obj : Entity_Id;
Res : Node_Id;
function Output_Subscript (N : Node_Id; S : String) return Boolean;
-- Outputs a single subscript value as ?nnn (subscript is compile time
-- known value with value nnn) or as ?e (subscript is local constant
-- with name e), where S supplies the proper string to use for ?.
-- Returns False if the subscript is not of an appropriate type to
-- output in one of these two forms. The result is prepended to the
-- name stored in Name_Buffer.
----------------------
-- Output_Subscript --
----------------------
function Output_Subscript (N : Node_Id; S : String) return Boolean is
begin
if Compile_Time_Known_Value (N) then
Prepend_Uint_To_Buffer (Expr_Value (N));
elsif Nkind (N) = N_Identifier
and then Scope (Entity (N)) = Scope (Ent)
and then Ekind (Entity (N)) = E_Constant
then
Prepend_String_To_Buffer (Get_Name_String (Chars (Entity (N))));
else
return False;
end if;
Prepend_String_To_Buffer (S);
return True;
end Output_Subscript;
-- Start of processing for Debug_Renaming_Declaration
begin
if not Comes_From_Source (N)
and then not Needs_Debug_Info (Ent)
then
return Empty;
end if;
-- Do not output those local variables in VM case, as this does not
-- help debugging (they are just unused), and might lead to duplicated
-- local variable names.
if VM_Target /= No_VM then
return Empty;
end if;
-- Get renamed entity and compute suffix
Name_Len := 0;
Ren := Nam;
loop
case Nkind (Ren) is
when N_Identifier =>
exit;
when N_Expanded_Name =>
-- The entity field for an N_Expanded_Name is on the expanded
-- name node itself, so we are done here too.
exit;
when N_Selected_Component =>
Prepend_String_To_Buffer
(Get_Name_String (Chars (Selector_Name (Ren))));
Prepend_String_To_Buffer ("XR");
Ren := Prefix (Ren);
when N_Indexed_Component =>
declare
X : Node_Id := Last (Expressions (Ren));
begin
while Present (X) loop
if not Output_Subscript (X, "XS") then
Set_Materialize_Entity (Ent);
return Empty;
end if;
Prev (X);
end loop;
end;
Ren := Prefix (Ren);
when N_Slice =>
Typ := Etype (First_Index (Etype (Nam)));
if not Output_Subscript (Type_High_Bound (Typ), "XS") then
Set_Materialize_Entity (Ent);
return Empty;
end if;
if not Output_Subscript (Type_Low_Bound (Typ), "XL") then
Set_Materialize_Entity (Ent);
return Empty;
end if;
Ren := Prefix (Ren);
when N_Explicit_Dereference =>
Set_Materialize_Entity (Ent);
Prepend_String_To_Buffer ("XA");
Ren := Prefix (Ren);
-- For now, anything else simply results in no translation
when others =>
Set_Materialize_Entity (Ent);
return Empty;
end case;
end loop;
Prepend_String_To_Buffer ("___XE");
-- Include the designation of the form of renaming
case Nkind (N) is
when N_Object_Renaming_Declaration =>
Prepend_String_To_Buffer ("___XR");
when N_Exception_Renaming_Declaration =>
Prepend_String_To_Buffer ("___XRE");
when N_Package_Renaming_Declaration =>
Prepend_String_To_Buffer ("___XRP");
when others =>
return Empty;
end case;
-- Add the name of the renaming entity to the front
Prepend_String_To_Buffer (Get_Name_String (Chars (Ent)));
-- If it is a child unit create a fully qualified name, to disambiguate
-- multiple child units with the same name and different parents.
if Nkind (N) = N_Package_Renaming_Declaration
and then Is_Child_Unit (Ent)
then
Prepend_String_To_Buffer ("__");
Prepend_String_To_Buffer
(Get_Name_String (Chars (Scope (Ent))));
end if;
-- Create the special object whose name is the debug encoding for the
-- renaming declaration.
-- For now, the object name contains the suffix encoding for the renamed
-- object, but not the name of the leading entity. The object is linked
-- the renamed entity using the Debug_Renaming_Link field. Then the
-- Qualify_Entity_Name procedure uses this link to create the proper
-- fully qualified name.
-- The reason we do things this way is that we really need to copy the
-- qualification of the renamed entity, and it is really much easier to
-- do this after the renamed entity has itself been fully qualified.
Obj := Make_Defining_Identifier (Loc, Chars => Name_Enter);
Res :=
Make_Object_Declaration (Loc,
Defining_Identifier => Obj,
Object_Definition => New_Reference_To
(Standard_Debug_Renaming_Type, Loc));
Set_Debug_Renaming_Link (Obj, Entity (Ren));
Set_Debug_Info_Needed (Obj);
-- Mark the object as internal so that it won't be initialized when
-- pragma Initialize_Scalars or Normalize_Scalars is in use.
Set_Is_Internal (Obj);
return Res;
-- If we get an exception, just figure it is a case that we cannot
-- successfully handle using our current approach, since this is
-- only for debugging, no need to take the compilation with us!
exception
when others =>
return Make_Null_Statement (Loc);
end Debug_Renaming_Declaration;
----------------------
-- Get_Encoded_Name --
----------------------
-- Note: see spec for details on encodings
procedure Get_Encoded_Name (E : Entity_Id) is
Has_Suffix : Boolean;
begin
-- If not generating code, there is no need to create encoded names, and
-- problems when the back-end is called to annotate types without full
-- code generation. See comments in Get_External_Name_With_Suffix for
-- additional details.
-- However we do create encoded names if the back end is active, even
-- if Operating_Mode got reset. Otherwise any serious error reported
-- by the backend calling Error_Msg changes the Compilation_Mode to
-- Check_Semantics, which disables the functionality of this routine,
-- causing the generation of spurious additional errors.
-- Couldn't we just test Original_Operating_Mode here? ???
if Operating_Mode /= Generate_Code
and then not Generating_Code
then
return;
end if;
Get_Name_String (Chars (E));
-- Nothing to do if we do not have a type
if not Is_Type (E)
-- Or if this is an enumeration base type
or else (Is_Enumeration_Type (E) and then Is_Base_Type (E))
-- Or if this is a dummy type for a renaming
or else (Name_Len >= 3 and then
Name_Buffer (Name_Len - 2 .. Name_Len) = "_XR")
or else (Name_Len >= 4 and then
(Name_Buffer (Name_Len - 3 .. Name_Len) = "_XRE"
or else
Name_Buffer (Name_Len - 3 .. Name_Len) = "_XRP"))
-- For all these cases, just return the name unchanged
then
Name_Buffer (Name_Len + 1) := ASCII.NUL;
return;
end if;
Has_Suffix := True;
-- Fixed-point case
if Is_Fixed_Point_Type (E) then
Get_External_Name_With_Suffix (E, "XF_");
Add_Real_To_Buffer (Delta_Value (E));
if Small_Value (E) /= Delta_Value (E) then
Add_Str_To_Name_Buffer ("_");
Add_Real_To_Buffer (Small_Value (E));
end if;
-- Vax floating-point case
elsif Vax_Float (E) then
if Digits_Value (Base_Type (E)) = 6 then
Get_External_Name_With_Suffix (E, "XFF");
elsif Digits_Value (Base_Type (E)) = 9 then
Get_External_Name_With_Suffix (E, "XFF");
else
pragma Assert (Digits_Value (Base_Type (E)) = 15);
Get_External_Name_With_Suffix (E, "XFG");
end if;
-- Discrete case where bounds do not match size
elsif Is_Discrete_Type (E)
and then not Bounds_Match_Size (E)
then
declare
Lo : constant Node_Id := Type_Low_Bound (E);
Hi : constant Node_Id := Type_High_Bound (E);
Lo_Con : constant Boolean := Compile_Time_Known_Value (Lo);
Hi_Con : constant Boolean := Compile_Time_Known_Value (Hi);
Lo_Discr : constant Boolean :=
Nkind (Lo) = N_Identifier
and then
Ekind (Entity (Lo)) = E_Discriminant;
Hi_Discr : constant Boolean :=
Nkind (Hi) = N_Identifier
and then
Ekind (Entity (Hi)) = E_Discriminant;
Lo_Encode : constant Boolean := Lo_Con or Lo_Discr;
Hi_Encode : constant Boolean := Hi_Con or Hi_Discr;
Biased : constant Boolean := Has_Biased_Representation (E);
begin
if Biased then
Get_External_Name_With_Suffix (E, "XB");
else
Get_External_Name_With_Suffix (E, "XD");
end if;
if Lo_Encode or Hi_Encode then
if Biased then
Add_Str_To_Name_Buffer ("_");
else
if Lo_Encode then
if Hi_Encode then
Add_Str_To_Name_Buffer ("LU_");
else
Add_Str_To_Name_Buffer ("L_");
end if;
else
Add_Str_To_Name_Buffer ("U_");
end if;
end if;
if Lo_Con then
Add_Uint_To_Buffer (Expr_Rep_Value (Lo));
elsif Lo_Discr then
Get_Name_String_And_Append (Chars (Entity (Lo)));
end if;
if Lo_Encode and Hi_Encode then
Add_Str_To_Name_Buffer ("__");
end if;
if Hi_Con then
Add_Uint_To_Buffer (Expr_Rep_Value (Hi));
elsif Hi_Discr then
Get_Name_String_And_Append (Chars (Entity (Hi)));
end if;
end if;
end;
-- For all other cases, the encoded name is the normal type name
else
Has_Suffix := False;
Get_External_Name (E, Has_Suffix);
end if;
if Debug_Flag_B and then Has_Suffix then
Write_Str ("**** type ");
Write_Name (Chars (E));
Write_Str (" is encoded as ");
Write_Str (Name_Buffer (1 .. Name_Len));
Write_Eol;
end if;
Name_Buffer (Name_Len + 1) := ASCII.NUL;
end Get_Encoded_Name;
-----------------------
-- Get_External_Name --
-----------------------
procedure Get_External_Name (Entity : Entity_Id; Has_Suffix : Boolean) is
E : Entity_Id := Entity;
Kind : Entity_Kind;
procedure Get_Qualified_Name_And_Append (Entity : Entity_Id);
-- Appends fully qualified name of given entity to Name_Buffer
-----------------------------------
-- Get_Qualified_Name_And_Append --
-----------------------------------
procedure Get_Qualified_Name_And_Append (Entity : Entity_Id) is
begin
-- If the entity is a compilation unit, its scope is Standard,
-- there is no outer scope, and the no further qualification
-- is required.
-- If the front end has already computed a fully qualified name,
-- then it is also the case that no further qualification is
-- required.
if Present (Scope (Scope (Entity)))
and then not Has_Fully_Qualified_Name (Entity)
then
Get_Qualified_Name_And_Append (Scope (Entity));
Add_Str_To_Name_Buffer ("__");
Get_Name_String_And_Append (Chars (Entity));
Append_Homonym_Number (Entity);
else
Get_Name_String_And_Append (Chars (Entity));
end if;
end Get_Qualified_Name_And_Append;
-- Start of processing for Get_External_Name
begin
Name_Len := 0;
Homonym_Len := 0;
-- If this is a child unit, we want the child
if Nkind (E) = N_Defining_Program_Unit_Name then
E := Defining_Identifier (Entity);
end if;
Kind := Ekind (E);
-- Case of interface name being used
if (Kind = E_Procedure or else
Kind = E_Function or else
Kind = E_Constant or else
Kind = E_Variable or else
Kind = E_Exception)
and then Present (Interface_Name (E))
and then No (Address_Clause (E))
and then not Has_Suffix
then
Add_String_To_Name_Buffer (Strval (Interface_Name (E)));
-- All other cases besides the interface name case
else
-- If this is a library level subprogram (i.e. a subprogram that is a
-- compilation unit other than a subunit), then we prepend _ada_ to
-- ensure distinctions required as described in the spec.
-- Check explicitly for child units, because those are not flagged
-- as Compilation_Units by lib. Should they be ???
if Is_Subprogram (E)
and then (Is_Compilation_Unit (E) or Is_Child_Unit (E))
and then not Has_Suffix
then
Add_Str_To_Name_Buffer ("_ada_");
end if;
-- If the entity is a subprogram instance that is not a compilation
-- unit, generate the name of the original Ada entity, which is the
-- one gdb needs.
if Is_Generic_Instance (E)
and then Is_Subprogram (E)
and then not Is_Compilation_Unit (Scope (E))
and then (Ekind (Scope (E)) = E_Package
or else
Ekind (Scope (E)) = E_Package_Body)
and then Present (Related_Instance (Scope (E)))
then
E := Related_Instance (Scope (E));
end if;
Get_Qualified_Name_And_Append (E);
end if;
Name_Buffer (Name_Len + 1) := ASCII.NUL;
end Get_External_Name;
-----------------------------------
-- Get_External_Name_With_Suffix --
-----------------------------------
procedure Get_External_Name_With_Suffix
(Entity : Entity_Id;
Suffix : String)
is
Has_Suffix : constant Boolean := (Suffix /= "");
begin
-- If we are not in code generation mode, this procedure may still be
-- called from Back_End (more specifically - from gigi for doing type
-- representation annotation or some representation-specific checks).
-- But in this mode there is no need to mess with external names.
-- Furthermore, the call causes difficulties in this case because the
-- string representing the homonym number is not correctly reset as a
-- part of the call to Output_Homonym_Numbers_Suffix (which is not
-- called in gigi).
if Operating_Mode /= Generate_Code then
return;
end if;
Get_External_Name (Entity, Has_Suffix);
if Has_Suffix then
Add_Str_To_Name_Buffer ("___");
Add_Str_To_Name_Buffer (Suffix);
Name_Buffer (Name_Len + 1) := ASCII.NUL;
end if;
end Get_External_Name_With_Suffix;
--------------------------
-- Get_Variant_Encoding --
--------------------------
procedure Get_Variant_Encoding (V : Node_Id) is
Choice : Node_Id;
procedure Choice_Val (Typ : Character; Choice : Node_Id);
-- Output encoded value for a single choice value. Typ is the key
-- character ('S', 'F', or 'T') that precedes the choice value.
----------------
-- Choice_Val --
----------------
procedure Choice_Val (Typ : Character; Choice : Node_Id) is
begin
if Nkind (Choice) = N_Integer_Literal then
Add_Char_To_Name_Buffer (Typ);
Add_Uint_To_Buffer (Intval (Choice));
-- Character literal with no entity present (this is the case
-- Standard.Character or Standard.Wide_Character as root type)
elsif Nkind (Choice) = N_Character_Literal
and then No (Entity (Choice))
then
Add_Char_To_Name_Buffer (Typ);
Add_Uint_To_Buffer (Char_Literal_Value (Choice));
else
declare
Ent : constant Entity_Id := Entity (Choice);
begin
if Ekind (Ent) = E_Enumeration_Literal then
Add_Char_To_Name_Buffer (Typ);
Add_Uint_To_Buffer (Enumeration_Rep (Ent));
else
pragma Assert (Ekind (Ent) = E_Constant);
Choice_Val (Typ, Constant_Value (Ent));
end if;
end;
end if;
end Choice_Val;
-- Start of processing for Get_Variant_Encoding
begin
Name_Len := 0;
Choice := First (Discrete_Choices (V));
while Present (Choice) loop
if Nkind (Choice) = N_Others_Choice then
Add_Char_To_Name_Buffer ('O');
elsif Nkind (Choice) = N_Range then
Choice_Val ('R', Low_Bound (Choice));
Choice_Val ('T', High_Bound (Choice));
elsif Is_Entity_Name (Choice)
and then Is_Type (Entity (Choice))
then
Choice_Val ('R', Type_Low_Bound (Entity (Choice)));
Choice_Val ('T', Type_High_Bound (Entity (Choice)));
elsif Nkind (Choice) = N_Subtype_Indication then
declare
Rang : constant Node_Id :=
Range_Expression (Constraint (Choice));
begin
Choice_Val ('R', Low_Bound (Rang));
Choice_Val ('T', High_Bound (Rang));
end;
else
Choice_Val ('S', Choice);
end if;
Next (Choice);
end loop;
Name_Buffer (Name_Len + 1) := ASCII.NUL;
if Debug_Flag_B then
declare
VP : constant Node_Id := Parent (V); -- Variant_Part
CL : constant Node_Id := Parent (VP); -- Component_List
RD : constant Node_Id := Parent (CL); -- Record_Definition
FT : constant Node_Id := Parent (RD); -- Full_Type_Declaration
begin
Write_Str ("**** variant for type ");
Write_Name (Chars (Defining_Identifier (FT)));
Write_Str (" is encoded as ");
Write_Str (Name_Buffer (1 .. Name_Len));
Write_Eol;
end;
end if;
end Get_Variant_Encoding;
------------------------------------
-- Get_Secondary_DT_External_Name --
------------------------------------
procedure Get_Secondary_DT_External_Name
(Typ : Entity_Id;
Ancestor_Typ : Entity_Id;
Suffix_Index : Int)
is
begin
Get_External_Name (Typ, Has_Suffix => False);
if Ancestor_Typ /= Typ then
declare
Len : constant Natural := Name_Len;
Save_Str : constant String (1 .. Name_Len)
:= Name_Buffer (1 .. Name_Len);
begin
Get_External_Name (Ancestor_Typ, Has_Suffix => False);
-- Append the extended name of the ancestor to the
-- extended name of Typ
Name_Buffer (Len + 2 .. Len + Name_Len + 1) :=
Name_Buffer (1 .. Name_Len);
Name_Buffer (1 .. Len) := Save_Str;
Name_Buffer (Len + 1) := '_';
Name_Len := Len + Name_Len + 1;
end;
end if;
Add_Nat_To_Name_Buffer (Suffix_Index);
end Get_Secondary_DT_External_Name;
---------------------------------
-- Make_Packed_Array_Type_Name --
---------------------------------
function Make_Packed_Array_Type_Name
(Typ : Entity_Id;
Csize : Uint)
return Name_Id
is
begin
Get_Name_String (Chars (Typ));
Add_Str_To_Name_Buffer ("___XP");
Add_Uint_To_Buffer (Csize);
return Name_Find;
end Make_Packed_Array_Type_Name;
-----------------------------------
-- Output_Homonym_Numbers_Suffix --
-----------------------------------
procedure Output_Homonym_Numbers_Suffix is
J : Natural;
begin
if Homonym_Len > 0 then
-- Check for all 1's, in which case we do not output
J := 1;
loop
exit when Homonym_Numbers (J) /= '1';
-- If we reached end of string we do not output
if J = Homonym_Len then
Homonym_Len := 0;
return;
end if;
exit when Homonym_Numbers (J + 1) /= '_';
J := J + 2;
end loop;
-- If we exit the loop then suffix must be output
Add_Str_To_Name_Buffer ("__");
Add_Str_To_Name_Buffer (Homonym_Numbers (1 .. Homonym_Len));
Homonym_Len := 0;
end if;
end Output_Homonym_Numbers_Suffix;
------------------------------
-- Prepend_String_To_Buffer --
------------------------------
procedure Prepend_String_To_Buffer (S : String) is
N : constant Integer := S'Length;
begin
Name_Buffer (1 + N .. Name_Len + N) := Name_Buffer (1 .. Name_Len);
Name_Buffer (1 .. N) := S;
Name_Len := Name_Len + N;
end Prepend_String_To_Buffer;
----------------------------
-- Prepend_Uint_To_Buffer --
----------------------------
procedure Prepend_Uint_To_Buffer (U : Uint) is
begin
if U < 0 then
Prepend_String_To_Buffer ("m");
Prepend_Uint_To_Buffer (-U);
else
UI_Image (U, Decimal);
Prepend_String_To_Buffer (UI_Image_Buffer (1 .. UI_Image_Length));
end if;
end Prepend_Uint_To_Buffer;
------------------------------
-- Qualify_All_Entity_Names --
------------------------------
procedure Qualify_All_Entity_Names is
E : Entity_Id;
Ent : Entity_Id;
begin
for J in Name_Qualify_Units.First .. Name_Qualify_Units.Last loop
E := Defining_Entity (Name_Qualify_Units.Table (J));
Qualify_Entity_Name (E);
-- Normally entities in the qualification list are scopes, but in the
-- case of a library-level package renaming there is an associated
-- variable that encodes the debugger name and that variable is
-- entered in the list since it occurs in the Aux_Decls list of the
-- compilation and doesn't have a normal scope.
if Ekind (E) /= E_Variable then
Ent := First_Entity (E);
while Present (Ent) loop
Qualify_Entity_Name (Ent);
Next_Entity (Ent);
-- There are odd cases where Last_Entity (E) = E. This happens
-- in the case of renaming of packages. This test avoids
-- getting stuck in such cases.
exit when Ent = E;
end loop;
end if;
end loop;
end Qualify_All_Entity_Names;
-------------------------
-- Qualify_Entity_Name --
-------------------------
procedure Qualify_Entity_Name (Ent : Entity_Id) is
Full_Qualify_Name : String (1 .. Name_Buffer'Length);
Full_Qualify_Len : Natural := 0;
-- Used to accumulate fully qualified name of subprogram
procedure Fully_Qualify_Name (E : Entity_Id);
-- Used to qualify a subprogram or type name, where full
-- qualification up to Standard is always used. Name is set
-- in Full_Qualify_Name with the length in Full_Qualify_Len.
-- Note that this routine does not prepend the _ada_ string
-- required for library subprograms (this is done in the back end).
function Is_BNPE (S : Entity_Id) return Boolean;
-- Determines if S is a BNPE, i.e. Body-Nested Package Entity, which
-- is defined to be a package which is immediately nested within a
-- package body.
function Qualify_Needed (S : Entity_Id) return Boolean;
-- Given a scope, determines if the scope is to be included in the
-- fully qualified name, True if so, False if not.
procedure Set_BNPE_Suffix (E : Entity_Id);
-- Recursive routine to append the BNPE qualification suffix. Works
-- from right to left with E being the current entity in the list.
-- The result does NOT have the trailing n's and trailing b stripped.
-- The caller must do this required stripping.
procedure Set_Entity_Name (E : Entity_Id);
-- Internal recursive routine that does most of the work. This routine
-- leaves the result sitting in Name_Buffer and Name_Len.
BNPE_Suffix_Needed : Boolean := False;
-- Set true if a body-nested package entity suffix is required
Save_Chars : constant Name_Id := Chars (Ent);
-- Save original name
------------------------
-- Fully_Qualify_Name --
------------------------
procedure Fully_Qualify_Name (E : Entity_Id) is
Discard : Boolean := False;
begin
-- Ignore empty entry (can happen in error cases)
if No (E) then
return;
-- If this we are qualifying entities local to a generic
-- instance, use the name of the original instantiation,
-- not that of the anonymous subprogram in the wrapper
-- package, so that gdb doesn't have to know about these.
elsif Is_Generic_Instance (E)
and then Is_Subprogram (E)
and then not Comes_From_Source (E)
and then not Is_Compilation_Unit (Scope (E))
then
Fully_Qualify_Name (Related_Instance (Scope (E)));
return;
end if;
-- If we reached fully qualified name, then just copy it
if Has_Fully_Qualified_Name (E) then
Get_Name_String (Chars (E));
Strip_Suffixes (Discard);
Full_Qualify_Name (1 .. Name_Len) := Name_Buffer (1 .. Name_Len);
Full_Qualify_Len := Name_Len;
Set_Has_Fully_Qualified_Name (Ent);
-- Case of non-fully qualified name
else
if Scope (E) = Standard_Standard then
Set_Has_Fully_Qualified_Name (Ent);
else
Fully_Qualify_Name (Scope (E));
Full_Qualify_Name (Full_Qualify_Len + 1) := '_';
Full_Qualify_Name (Full_Qualify_Len + 2) := '_';
Full_Qualify_Len := Full_Qualify_Len + 2;
end if;
if Has_Qualified_Name (E) then
Get_Unqualified_Name_String (Chars (E));
else
Get_Name_String (Chars (E));
end if;
-- Here we do one step of the qualification
Full_Qualify_Name
(Full_Qualify_Len + 1 .. Full_Qualify_Len + Name_Len) :=
Name_Buffer (1 .. Name_Len);
Full_Qualify_Len := Full_Qualify_Len + Name_Len;
Append_Homonym_Number (E);
end if;
if Is_BNPE (E) then
BNPE_Suffix_Needed := True;
end if;
end Fully_Qualify_Name;
-------------
-- Is_BNPE --
-------------
function Is_BNPE (S : Entity_Id) return Boolean is
begin
return
Ekind (S) = E_Package
and then Is_Package_Body_Entity (S);
end Is_BNPE;
--------------------
-- Qualify_Needed --
--------------------
function Qualify_Needed (S : Entity_Id) return Boolean is
begin
-- If we got all the way to Standard, then we have certainly
-- fully qualified the name, so set the flag appropriately,
-- and then return False, since we are most certainly done!
if S = Standard_Standard then
Set_Has_Fully_Qualified_Name (Ent, True);
return False;
-- Otherwise figure out if further qualification is required
else
return
Is_Subprogram (Ent)
or else
Ekind (Ent) = E_Subprogram_Body
or else
(Ekind (S) /= E_Block
and then not Is_Dynamic_Scope (S));
end if;
end Qualify_Needed;
---------------------
-- Set_BNPE_Suffix --
---------------------
procedure Set_BNPE_Suffix (E : Entity_Id) is
S : constant Entity_Id := Scope (E);
begin
if Qualify_Needed (S) then
Set_BNPE_Suffix (S);
if Is_BNPE (E) then
Add_Char_To_Name_Buffer ('b');
else
Add_Char_To_Name_Buffer ('n');
end if;
else
Add_Char_To_Name_Buffer ('X');
end if;
end Set_BNPE_Suffix;
---------------------
-- Set_Entity_Name --
---------------------
procedure Set_Entity_Name (E : Entity_Id) is
S : constant Entity_Id := Scope (E);
begin
-- If we reach an already qualified name, just take the encoding
-- except that we strip the package body suffixes, since these
-- will be separately put on later.
if Has_Qualified_Name (E) then
Get_Name_String_And_Append (Chars (E));
Strip_Suffixes (BNPE_Suffix_Needed);
-- If the top level name we are adding is itself fully
-- qualified, then that means that the name that we are
-- preparing for the Fully_Qualify_Name call will also
-- generate a fully qualified name.
if Has_Fully_Qualified_Name (E) then
Set_Has_Fully_Qualified_Name (Ent);
end if;
-- Case where upper level name is not encoded yet
else
-- Recurse if further qualification required
if Qualify_Needed (S) then
Set_Entity_Name (S);
Add_Str_To_Name_Buffer ("__");
end if;
-- Otherwise get name and note if it is a BNPE
Get_Name_String_And_Append (Chars (E));
if Is_BNPE (E) then
BNPE_Suffix_Needed := True;
end if;
Append_Homonym_Number (E);
end if;
end Set_Entity_Name;
-- Start of processing for Qualify_Entity_Name
begin
if Has_Qualified_Name (Ent) then
return;
-- If the entity is a variable encoding the debug name for an object
-- renaming, then the qualified name of the entity associated with the
-- renamed object can now be incorporated in the debug name.
elsif Ekind (Ent) = E_Variable
and then Present (Debug_Renaming_Link (Ent))
then
Name_Len := 0;
Qualify_Entity_Name (Debug_Renaming_Link (Ent));
Get_Name_String (Chars (Ent));
-- Retrieve the now-qualified name of the renamed entity and insert
-- it in the middle of the name, just preceding the suffix encoding
-- describing the renamed object.
declare
Renamed_Id : constant String :=
Get_Name_String (Chars (Debug_Renaming_Link (Ent)));
Insert_Len : constant Integer := Renamed_Id'Length + 1;
Index : Natural := Name_Len - 3;
begin
-- Loop backwards through the name to find the start of the "___"
-- sequence associated with the suffix.
while Index >= Name_Buffer'First
and then (Name_Buffer (Index + 1) /= '_'
or else Name_Buffer (Index + 2) /= '_'
or else Name_Buffer (Index + 3) /= '_')
loop
Index := Index - 1;
end loop;
pragma Assert (Name_Buffer (Index + 1 .. Index + 3) = "___");
-- Insert an underscore separator and the entity name just in
-- front of the suffix.
Name_Buffer (Index + 1 + Insert_Len .. Name_Len + Insert_Len) :=
Name_Buffer (Index + 1 .. Name_Len);
Name_Buffer (Index + 1) := '_';
Name_Buffer (Index + 2 .. Index + Insert_Len) := Renamed_Id;
Name_Len := Name_Len + Insert_Len;
end;
-- Reset the name of the variable to the new name that includes the
-- name of the renamed entity.
Set_Chars (Ent, Name_Enter);
-- If the entity needs qualification by its scope then develop it
-- here, add the variable's name, and again reset the entity name.
if Qualify_Needed (Scope (Ent)) then
Name_Len := 0;
Set_Entity_Name (Scope (Ent));
Add_Str_To_Name_Buffer ("__");
Get_Name_String_And_Append (Chars (Ent));
Set_Chars (Ent, Name_Enter);
end if;
Set_Has_Qualified_Name (Ent);
return;
elsif Is_Subprogram (Ent)
or else Ekind (Ent) = E_Subprogram_Body
or else Is_Type (Ent)
then
Fully_Qualify_Name (Ent);
Name_Len := Full_Qualify_Len;
Name_Buffer (1 .. Name_Len) := Full_Qualify_Name (1 .. Name_Len);
elsif Qualify_Needed (Scope (Ent)) then
Name_Len := 0;
Set_Entity_Name (Ent);
else
Set_Has_Qualified_Name (Ent);
return;
end if;
-- Fall through with a fully qualified name in Name_Buffer/Name_Len
Output_Homonym_Numbers_Suffix;
-- Add body-nested package suffix if required
if BNPE_Suffix_Needed
and then Ekind (Ent) /= E_Enumeration_Literal
then
Set_BNPE_Suffix (Ent);
-- Strip trailing n's and last trailing b as required. note that
-- we know there is at least one b, or no suffix would be generated.
while Name_Buffer (Name_Len) = 'n' loop
Name_Len := Name_Len - 1;
end loop;
Name_Len := Name_Len - 1;
end if;
Set_Chars (Ent, Name_Enter);
Set_Has_Qualified_Name (Ent);
if Debug_Flag_BB then
Write_Str ("*** ");
Write_Name (Save_Chars);
Write_Str (" qualified as ");
Write_Name (Chars (Ent));
Write_Eol;
end if;
end Qualify_Entity_Name;
--------------------------
-- Qualify_Entity_Names --
--------------------------
procedure Qualify_Entity_Names (N : Node_Id) is
begin
Name_Qualify_Units.Append (N);
end Qualify_Entity_Names;
--------------------
-- Strip_Suffixes --
--------------------
procedure Strip_Suffixes (BNPE_Suffix_Found : in out Boolean) is
SL : Natural;
pragma Warnings (Off, BNPE_Suffix_Found);
-- Since this procedure only ever sets the flag
begin
-- Search for and strip BNPE suffix
for J in reverse 2 .. Name_Len loop
if Name_Buffer (J) = 'X' then
Name_Len := J - 1;
BNPE_Suffix_Found := True;
exit;
end if;
exit when Name_Buffer (J) /= 'b' and then Name_Buffer (J) /= 'n';
end loop;
-- Search for and strip homonym numbers suffix
for J in reverse 2 .. Name_Len - 2 loop
if Name_Buffer (J) = '_'
and then Name_Buffer (J + 1) = '_'
then
if Name_Buffer (J + 2) in '0' .. '9' then
if Homonym_Len > 0 then
Homonym_Len := Homonym_Len + 1;
Homonym_Numbers (Homonym_Len) := '-';
end if;
SL := Name_Len - (J + 1);
Homonym_Numbers (Homonym_Len + 1 .. Homonym_Len + SL) :=
Name_Buffer (J + 2 .. Name_Len);
Name_Len := J - 1;
Homonym_Len := Homonym_Len + SL;
end if;
exit;
end if;
end loop;
end Strip_Suffixes;
end Exp_Dbug;
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