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------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- E X P _ D B U G -- -- -- -- B o d y -- -- -- -- Copyright (C) 1996-2011, 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 Reset_Buffers; -- Reset the contents of Name_Buffer and Homonym_Numbers by setting their -- respective lengths to zero. 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 Reset_Buffers; -- 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)); Reset_Buffers; 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 Reset_Buffers; 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; ------------------- -- Reset_Buffers -- ------------------- procedure Reset_Buffers is begin Name_Len := 0; Homonym_Len := 0; end Reset_Buffers; -------------------- -- 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;