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------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- U N A M E -- -- -- -- B o d y -- -- -- -- Copyright (C) 1992-2010, 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. -- -- -- -- As a special exception under Section 7 of GPL version 3, you are granted -- -- additional permissions described in the GCC Runtime Library Exception, -- -- version 3.1, as published by the Free Software Foundation. -- -- -- -- You should have received a copy of the GNU General Public License and -- -- a copy of the GCC Runtime Library Exception along with this program; -- -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -- -- <http://www.gnu.org/licenses/>. -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ with Atree; use Atree; with Casing; use Casing; with Einfo; use Einfo; with Hostparm; with Lib; use Lib; with Nlists; use Nlists; with Output; use Output; with Sinfo; use Sinfo; with Sinput; use Sinput; package body Uname is ------------------- -- Get_Body_Name -- ------------------- function Get_Body_Name (N : Unit_Name_Type) return Unit_Name_Type is begin Get_Name_String (N); pragma Assert (Name_Len > 2 and then Name_Buffer (Name_Len - 1) = '%' and then Name_Buffer (Name_Len) = 's'); Name_Buffer (Name_Len) := 'b'; return Name_Find; end Get_Body_Name; ----------------------------------- -- Get_External_Unit_Name_String -- ----------------------------------- procedure Get_External_Unit_Name_String (N : Unit_Name_Type) is Pcount : Natural; Newlen : Natural; begin -- Get unit name and eliminate trailing %s or %b Get_Name_String (N); Name_Len := Name_Len - 2; -- Find number of components Pcount := 0; for J in 1 .. Name_Len loop if Name_Buffer (J) = '.' then Pcount := Pcount + 1; end if; end loop; -- If simple name, nothing to do if Pcount = 0 then return; end if; -- If name has multiple components, replace dots by double underscore Newlen := Name_Len + Pcount; for J in reverse 1 .. Name_Len loop if Name_Buffer (J) = '.' then Name_Buffer (Newlen) := '_'; Name_Buffer (Newlen - 1) := '_'; Newlen := Newlen - 2; else Name_Buffer (Newlen) := Name_Buffer (J); Newlen := Newlen - 1; end if; end loop; Name_Len := Name_Len + Pcount; end Get_External_Unit_Name_String; -------------------------- -- Get_Parent_Body_Name -- -------------------------- function Get_Parent_Body_Name (N : Unit_Name_Type) return Unit_Name_Type is begin Get_Name_String (N); while Name_Buffer (Name_Len) /= '.' loop pragma Assert (Name_Len > 1); -- not a child or subunit name Name_Len := Name_Len - 1; end loop; Name_Buffer (Name_Len) := '%'; Name_Len := Name_Len + 1; Name_Buffer (Name_Len) := 'b'; return Name_Find; end Get_Parent_Body_Name; -------------------------- -- Get_Parent_Spec_Name -- -------------------------- function Get_Parent_Spec_Name (N : Unit_Name_Type) return Unit_Name_Type is begin Get_Name_String (N); while Name_Buffer (Name_Len) /= '.' loop if Name_Len = 1 then return No_Unit_Name; else Name_Len := Name_Len - 1; end if; end loop; Name_Buffer (Name_Len) := '%'; Name_Len := Name_Len + 1; Name_Buffer (Name_Len) := 's'; return Name_Find; end Get_Parent_Spec_Name; ------------------- -- Get_Spec_Name -- ------------------- function Get_Spec_Name (N : Unit_Name_Type) return Unit_Name_Type is begin Get_Name_String (N); pragma Assert (Name_Len > 2 and then Name_Buffer (Name_Len - 1) = '%' and then Name_Buffer (Name_Len) = 'b'); Name_Buffer (Name_Len) := 's'; return Name_Find; end Get_Spec_Name; ------------------- -- Get_Unit_Name -- ------------------- function Get_Unit_Name (N : Node_Id) return Unit_Name_Type is Unit_Name_Buffer : String (1 .. Hostparm.Max_Name_Length); -- Buffer used to build name of unit. Note that we cannot use the -- Name_Buffer in package Name_Table because we use it to read -- component names. Unit_Name_Length : Natural := 0; -- Length of name stored in Unit_Name_Buffer Node : Node_Id; -- Program unit node procedure Add_Char (C : Character); -- Add a single character to stored unit name procedure Add_Name (Name : Name_Id); -- Add the characters of a names table entry to stored unit name procedure Add_Node_Name (Node : Node_Id); -- Recursive procedure adds characters associated with Node function Get_Parent (Node : Node_Id) return Node_Id; -- Get parent compilation unit of a stub -------------- -- Add_Char -- -------------- procedure Add_Char (C : Character) is begin -- Should really check for max length exceeded here??? Unit_Name_Length := Unit_Name_Length + 1; Unit_Name_Buffer (Unit_Name_Length) := C; end Add_Char; -------------- -- Add_Name -- -------------- procedure Add_Name (Name : Name_Id) is begin Get_Name_String (Name); for J in 1 .. Name_Len loop Add_Char (Name_Buffer (J)); end loop; end Add_Name; ------------------- -- Add_Node_Name -- ------------------- procedure Add_Node_Name (Node : Node_Id) is Kind : constant Node_Kind := Nkind (Node); begin -- Just ignore an error node (someone else will give a message) if Node = Error then return; -- Otherwise see what kind of node we have else case Kind is when N_Identifier | N_Defining_Identifier | N_Defining_Operator_Symbol => -- Note: it is of course an error to have a defining -- operator symbol at this point, but this is not where -- the error is signalled, so we handle it nicely here! Add_Name (Chars (Node)); when N_Defining_Program_Unit_Name => Add_Node_Name (Name (Node)); Add_Char ('.'); Add_Node_Name (Defining_Identifier (Node)); when N_Selected_Component | N_Expanded_Name => Add_Node_Name (Prefix (Node)); Add_Char ('.'); Add_Node_Name (Selector_Name (Node)); when N_Subprogram_Specification | N_Package_Specification => Add_Node_Name (Defining_Unit_Name (Node)); when N_Subprogram_Body | N_Subprogram_Declaration | N_Package_Declaration | N_Generic_Declaration => Add_Node_Name (Specification (Node)); when N_Generic_Instantiation => Add_Node_Name (Defining_Unit_Name (Node)); when N_Package_Body => Add_Node_Name (Defining_Unit_Name (Node)); when N_Task_Body | N_Protected_Body => Add_Node_Name (Defining_Identifier (Node)); when N_Package_Renaming_Declaration => Add_Node_Name (Defining_Unit_Name (Node)); when N_Subprogram_Renaming_Declaration => Add_Node_Name (Specification (Node)); when N_Generic_Renaming_Declaration => Add_Node_Name (Defining_Unit_Name (Node)); when N_Subprogram_Body_Stub => Add_Node_Name (Get_Parent (Node)); Add_Char ('.'); Add_Node_Name (Specification (Node)); when N_Compilation_Unit => Add_Node_Name (Unit (Node)); when N_Package_Body_Stub => Add_Node_Name (Get_Parent (Node)); Add_Char ('.'); Add_Node_Name (Defining_Identifier (Node)); when N_Task_Body_Stub | N_Protected_Body_Stub => Add_Node_Name (Get_Parent (Node)); Add_Char ('.'); Add_Node_Name (Defining_Identifier (Node)); when N_Subunit => Add_Node_Name (Name (Node)); Add_Char ('.'); Add_Node_Name (Proper_Body (Node)); when N_With_Clause => Add_Node_Name (Name (Node)); when N_Pragma => Add_Node_Name (Expression (First (Pragma_Argument_Associations (Node)))); -- Tasks and protected stuff appear only in an error context, -- but the error has been posted elsewhere, so we deal nicely -- with these error situations here, and produce a reasonable -- unit name using the defining identifier. when N_Task_Type_Declaration | N_Single_Task_Declaration | N_Protected_Type_Declaration | N_Single_Protected_Declaration => Add_Node_Name (Defining_Identifier (Node)); when others => raise Program_Error; end case; end if; end Add_Node_Name; ---------------- -- Get_Parent -- ---------------- function Get_Parent (Node : Node_Id) return Node_Id is N : Node_Id := Node; begin while Nkind (N) /= N_Compilation_Unit loop N := Parent (N); end loop; return N; end Get_Parent; -- Start of processing for Get_Unit_Name begin Node := N; -- If we have Defining_Identifier, find the associated unit node if Nkind (Node) = N_Defining_Identifier then Node := Declaration_Node (Node); -- If an expanded name, it is an already analyzed child unit, find -- unit node. elsif Nkind (Node) = N_Expanded_Name then Node := Declaration_Node (Entity (Node)); end if; if Nkind (Node) = N_Package_Specification or else Nkind (Node) in N_Subprogram_Specification then Node := Parent (Node); end if; -- Node points to the unit, so get its name and add proper suffix Add_Node_Name (Node); Add_Char ('%'); case Nkind (Node) is when N_Generic_Declaration | N_Subprogram_Declaration | N_Package_Declaration | N_With_Clause | N_Pragma | N_Generic_Instantiation | N_Package_Renaming_Declaration | N_Subprogram_Renaming_Declaration | N_Generic_Renaming_Declaration | N_Single_Task_Declaration | N_Single_Protected_Declaration | N_Task_Type_Declaration | N_Protected_Type_Declaration => Add_Char ('s'); when N_Subprogram_Body | N_Package_Body | N_Subunit | N_Body_Stub | N_Task_Body | N_Protected_Body | N_Identifier | N_Selected_Component => Add_Char ('b'); when others => raise Program_Error; end case; Name_Buffer (1 .. Unit_Name_Length) := Unit_Name_Buffer (1 .. Unit_Name_Length); Name_Len := Unit_Name_Length; return Name_Find; end Get_Unit_Name; -------------------------- -- Get_Unit_Name_String -- -------------------------- procedure Get_Unit_Name_String (N : Unit_Name_Type; Suffix : Boolean := True) is Unit_Is_Body : Boolean; begin Get_Decoded_Name_String (N); Unit_Is_Body := Name_Buffer (Name_Len) = 'b'; Set_Casing (Identifier_Casing (Source_Index (Main_Unit)), Mixed_Case); -- A special fudge, normally we don't have operator symbols present, -- since it is always an error to do so. However, if we do, at this -- stage it has the form: -- "and" -- and the %s or %b has already been eliminated so put 2 chars back if Name_Buffer (1) = '"' then Name_Len := Name_Len + 2; end if; -- Now adjust the %s or %b to (spec) or (body) if Suffix then if Unit_Is_Body then Name_Buffer (Name_Len - 1 .. Name_Len + 5) := " (body)"; else Name_Buffer (Name_Len - 1 .. Name_Len + 5) := " (spec)"; end if; end if; for J in 1 .. Name_Len loop if Name_Buffer (J) = '-' then Name_Buffer (J) := '.'; end if; end loop; -- Adjust Name_Len if Suffix then Name_Len := Name_Len + (7 - 2); else Name_Len := Name_Len - 2; end if; end Get_Unit_Name_String; ------------------ -- Is_Body_Name -- ------------------ function Is_Body_Name (N : Unit_Name_Type) return Boolean is begin Get_Name_String (N); return Name_Len > 2 and then Name_Buffer (Name_Len - 1) = '%' and then Name_Buffer (Name_Len) = 'b'; end Is_Body_Name; ------------------- -- Is_Child_Name -- ------------------- function Is_Child_Name (N : Unit_Name_Type) return Boolean is J : Natural; begin Get_Name_String (N); J := Name_Len; while Name_Buffer (J) /= '.' loop if J = 1 then return False; -- not a child or subunit name else J := J - 1; end if; end loop; return True; end Is_Child_Name; ------------------ -- Is_Spec_Name -- ------------------ function Is_Spec_Name (N : Unit_Name_Type) return Boolean is begin Get_Name_String (N); return Name_Len > 2 and then Name_Buffer (Name_Len - 1) = '%' and then Name_Buffer (Name_Len) = 's'; end Is_Spec_Name; ----------------------- -- Name_To_Unit_Name -- ----------------------- function Name_To_Unit_Name (N : Name_Id) return Unit_Name_Type is begin Get_Name_String (N); Name_Buffer (Name_Len + 1) := '%'; Name_Buffer (Name_Len + 2) := 's'; Name_Len := Name_Len + 2; return Name_Find; end Name_To_Unit_Name; --------------- -- New_Child -- --------------- function New_Child (Old : Unit_Name_Type; Newp : Unit_Name_Type) return Unit_Name_Type is P : Natural; begin Get_Name_String (Old); declare Child : constant String := Name_Buffer (1 .. Name_Len); begin Get_Name_String (Newp); Name_Len := Name_Len - 2; P := Child'Last; while Child (P) /= '.' loop P := P - 1; end loop; while P <= Child'Last loop Name_Len := Name_Len + 1; Name_Buffer (Name_Len) := Child (P); P := P + 1; end loop; return Name_Find; end; end New_Child; -------------- -- Uname_Ge -- -------------- function Uname_Ge (Left, Right : Unit_Name_Type) return Boolean is begin return Left = Right or else Uname_Gt (Left, Right); end Uname_Ge; -------------- -- Uname_Gt -- -------------- function Uname_Gt (Left, Right : Unit_Name_Type) return Boolean is begin return Left /= Right and then not Uname_Lt (Left, Right); end Uname_Gt; -------------- -- Uname_Le -- -------------- function Uname_Le (Left, Right : Unit_Name_Type) return Boolean is begin return Left = Right or else Uname_Lt (Left, Right); end Uname_Le; -------------- -- Uname_Lt -- -------------- function Uname_Lt (Left, Right : Unit_Name_Type) return Boolean is Left_Name : String (1 .. Hostparm.Max_Name_Length); Left_Length : Natural; Right_Name : String renames Name_Buffer; Right_Length : Natural renames Name_Len; J : Natural; begin pragma Warnings (Off, Right_Length); -- Suppress warnings on Right_Length, used in pragma Assert if Left = Right then return False; end if; Get_Name_String (Left); Left_Name (1 .. Name_Len + 1) := Name_Buffer (1 .. Name_Len + 1); Left_Length := Name_Len; Get_Name_String (Right); J := 1; loop exit when Left_Name (J) = '%'; if Right_Name (J) = '%' then return False; -- left name is longer end if; pragma Assert (J <= Left_Length and then J <= Right_Length); if Left_Name (J) /= Right_Name (J) then return Left_Name (J) < Right_Name (J); -- parent names different end if; J := J + 1; end loop; -- Come here pointing to % in left name if Right_Name (J) /= '%' then return True; -- right name is longer end if; -- Here the parent names are the same and specs sort low. If neither is -- a spec, then we are comparing the same name and we want a result of -- False in any case. return Left_Name (J + 1) = 's'; end Uname_Lt; --------------------- -- Write_Unit_Name -- --------------------- procedure Write_Unit_Name (N : Unit_Name_Type) is begin Get_Unit_Name_String (N); Write_Str (Name_Buffer (1 .. Name_Len)); end Write_Unit_Name; end Uname;
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