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------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- S E M _ E L I M -- -- -- -- B o d y -- -- -- -- Copyright (C) 1997-2009, 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 Atree; use Atree; with Einfo; use Einfo; with Errout; use Errout; with Lib; use Lib; with Namet; use Namet; with Nlists; use Nlists; with Sem; use Sem; with Sem_Prag; use Sem_Prag; with Sem_Util; use Sem_Util; with Sinput; use Sinput; with Sinfo; use Sinfo; with Snames; use Snames; with Stand; use Stand; with Stringt; use Stringt; with Table; with GNAT.HTable; use GNAT.HTable; package body Sem_Elim is No_Elimination : Boolean; -- Set True if no Eliminate pragmas active --------------------- -- Data Structures -- --------------------- -- A single pragma Eliminate is represented by the following record type Elim_Data; type Access_Elim_Data is access Elim_Data; type Names is array (Nat range <>) of Name_Id; -- Type used to represent set of names. Used for names in Unit_Name -- and also the set of names in Argument_Types. type Access_Names is access Names; type Elim_Data is record Unit_Name : Access_Names; -- Unit name, broken down into a set of names (e.g. A.B.C is -- represented as Name_Id values for A, B, C in sequence). Entity_Name : Name_Id; -- Entity name if Entity parameter if present. If no Entity parameter -- was supplied, then Entity_Node is set to Empty, and the Entity_Name -- field contains the last identifier name in the Unit_Name. Entity_Scope : Access_Names; -- Static scope of the entity within the compilation unit represented by -- Unit_Name. Entity_Node : Node_Id; -- Save node of entity argument, for posting error messages. Set -- to Empty if there is no entity argument. Parameter_Types : Access_Names; -- Set to set of names given for parameter types. If no parameter -- types argument is present, this argument is set to null. Result_Type : Name_Id; -- Result type name if Result_Types parameter present, No_Name if not Source_Location : Name_Id; -- String describing the source location of subprogram defining name if -- Source_Location parameter present, No_Name if not Hash_Link : Access_Elim_Data; -- Link for hash table use Homonym : Access_Elim_Data; -- Pointer to next entry with same key Prag : Node_Id; -- Node_Id for Eliminate pragma end record; ---------------- -- Hash_Table -- ---------------- -- Setup hash table using the Entity_Name field as the hash key subtype Element is Elim_Data; subtype Elmt_Ptr is Access_Elim_Data; subtype Key is Name_Id; type Header_Num is range 0 .. 1023; Null_Ptr : constant Elmt_Ptr := null; ---------------------- -- Hash_Subprograms -- ---------------------- package Hash_Subprograms is function Equal (F1, F2 : Key) return Boolean; pragma Inline (Equal); function Get_Key (E : Elmt_Ptr) return Key; pragma Inline (Get_Key); function Hash (F : Key) return Header_Num; pragma Inline (Hash); function Next (E : Elmt_Ptr) return Elmt_Ptr; pragma Inline (Next); procedure Set_Next (E : Elmt_Ptr; Next : Elmt_Ptr); pragma Inline (Set_Next); end Hash_Subprograms; package body Hash_Subprograms is ----------- -- Equal -- ----------- function Equal (F1, F2 : Key) return Boolean is begin return F1 = F2; end Equal; ------------- -- Get_Key -- ------------- function Get_Key (E : Elmt_Ptr) return Key is begin return E.Entity_Name; end Get_Key; ---------- -- Hash -- ---------- function Hash (F : Key) return Header_Num is begin return Header_Num (Int (F) mod 1024); end Hash; ---------- -- Next -- ---------- function Next (E : Elmt_Ptr) return Elmt_Ptr is begin return E.Hash_Link; end Next; -------------- -- Set_Next -- -------------- procedure Set_Next (E : Elmt_Ptr; Next : Elmt_Ptr) is begin E.Hash_Link := Next; end Set_Next; end Hash_Subprograms; ------------ -- Tables -- ------------ -- The following table records the data for each pragmas, using the -- entity name as the hash key for retrieval. Entries in this table -- are set by Process_Eliminate_Pragma and read by Check_Eliminated. package Elim_Hash_Table is new Static_HTable ( Header_Num => Header_Num, Element => Element, Elmt_Ptr => Elmt_Ptr, Null_Ptr => Null_Ptr, Set_Next => Hash_Subprograms.Set_Next, Next => Hash_Subprograms.Next, Key => Key, Get_Key => Hash_Subprograms.Get_Key, Hash => Hash_Subprograms.Hash, Equal => Hash_Subprograms.Equal); -- The following table records entities for subprograms that are -- eliminated, and corresponding eliminate pragmas that caused the -- elimination. Entries in this table are set by Check_Eliminated -- and read by Eliminate_Error_Msg. type Elim_Entity_Entry is record Prag : Node_Id; Subp : Entity_Id; end record; package Elim_Entities is new Table.Table ( Table_Component_Type => Elim_Entity_Entry, Table_Index_Type => Name_Id'Base, Table_Low_Bound => First_Name_Id, Table_Initial => 50, Table_Increment => 200, Table_Name => "Elim_Entries"); ---------------------- -- Check_Eliminated -- ---------------------- procedure Check_Eliminated (E : Entity_Id) is Elmt : Access_Elim_Data; Scop : Entity_Id; Form : Entity_Id; begin if No_Elimination then return; -- Elimination of objects and types is not implemented yet elsif Ekind (E) not in Subprogram_Kind then return; end if; -- Loop through homonyms for this key Elmt := Elim_Hash_Table.Get (Chars (E)); while Elmt /= null loop Check_Homonyms : declare procedure Set_Eliminated; -- Set current subprogram entity as eliminated -------------------- -- Set_Eliminated -- -------------------- procedure Set_Eliminated is begin if Is_Dispatching_Operation (E) then -- If an overriding dispatching primitive is eliminated then -- its parent must have been eliminated. if Is_Overriding_Operation (E) and then not Is_Eliminated (Overridden_Operation (E)) then Error_Msg_Name_1 := Chars (E); Error_Msg_N ("cannot eliminate subprogram %", E); return; end if; end if; Set_Is_Eliminated (E); Elim_Entities.Append ((Prag => Elmt.Prag, Subp => E)); end Set_Eliminated; -- Start of processing for Check_Homonyms begin -- First we check that the name of the entity matches if Elmt.Entity_Name /= Chars (E) then goto Continue; end if; -- Find enclosing unit Scop := Cunit_Entity (Current_Sem_Unit); -- Now see if compilation unit matches for J in reverse Elmt.Unit_Name'Range loop if Elmt.Unit_Name (J) /= Chars (Scop) then goto Continue; end if; Scop := Scope (Scop); while Ekind (Scop) = E_Block loop Scop := Scope (Scop); end loop; if Scop /= Standard_Standard and then J = 1 then goto Continue; end if; end loop; if Scop /= Standard_Standard then goto Continue; end if; -- Check for case of given entity is a library level subprogram -- and we have the single parameter Eliminate case, a match! if Is_Compilation_Unit (E) and then Is_Subprogram (E) and then No (Elmt.Entity_Node) then Set_Eliminated; return; -- Check for case of type or object with two parameter case elsif (Is_Type (E) or else Is_Object (E)) and then Elmt.Result_Type = No_Name and then Elmt.Parameter_Types = null then Set_Eliminated; return; -- Check for case of subprogram elsif Ekind (E) = E_Function or else Ekind (E) = E_Procedure then -- If Source_Location present, then see if it matches if Elmt.Source_Location /= No_Name then Get_Name_String (Elmt.Source_Location); declare Sloc_Trace : constant String := Name_Buffer (1 .. Name_Len); Idx : Natural := Sloc_Trace'First; -- Index in Sloc_Trace, if equals to 0, then we have -- completely traversed Sloc_Trace Last : constant Natural := Sloc_Trace'Last; P : Source_Ptr; Sindex : Source_File_Index; function File_Name_Match return Boolean; -- This function is supposed to be called when Idx points -- to the beginning of the new file name, and Name_Buffer -- is set to contain the name of the proper source file -- from the chain corresponding to the Sloc of E. First -- it checks that these two files have the same name. If -- this check is successful, moves Idx to point to the -- beginning of the column number. function Line_Num_Match return Boolean; -- This function is supposed to be called when Idx points -- to the beginning of the column number, and P is -- set to point to the proper Sloc the chain -- corresponding to the Sloc of E. First it checks that -- the line number Idx points on and the line number -- corresponding to P are the same. If this check is -- successful, moves Idx to point to the beginning of -- the next file name in Sloc_Trace. If there is no file -- name any more, Idx is set to 0. function Different_Trace_Lengths return Boolean; -- From Idx and P, defines if there are in both traces -- more element(s) in the instantiation chains. Returns -- False if one trace contains more element(s), but -- another does not. If both traces contains more -- elements (that is, the function returns False), moves -- P ahead in the chain corresponding to E, recomputes -- Sindex and sets the name of the corresponding file in -- Name_Buffer function Skip_Spaces return Natural; -- If Sloc_Trace (Idx) is not space character, returns -- Idx. Otherwise returns the index of the nearest -- non-space character in Sloc_Trace to the right of Idx. -- Returns 0 if there is no such character. ----------------------------- -- Different_Trace_Lengths -- ----------------------------- function Different_Trace_Lengths return Boolean is begin P := Instantiation (Sindex); if (P = No_Location and then Idx /= 0) or else (P /= No_Location and then Idx = 0) then return True; else if P /= No_Location then Sindex := Get_Source_File_Index (P); Get_Name_String (File_Name (Sindex)); end if; return False; end if; end Different_Trace_Lengths; --------------------- -- File_Name_Match -- --------------------- function File_Name_Match return Boolean is Tmp_Idx : Natural; End_Idx : Natural; begin if Idx = 0 then return False; end if; -- Find first colon. If no colon, then return False. -- If there is a colon, Tmp_Idx is set to point just -- before the colon. Tmp_Idx := Idx - 1; loop if Tmp_Idx >= Last then return False; elsif Sloc_Trace (Tmp_Idx + 1) = ':' then exit; else Tmp_Idx := Tmp_Idx + 1; end if; end loop; -- Find last non-space before this colon. If there is -- no space character before this colon, then return -- False. Otherwise, End_Idx is set to point to this -- non-space character. End_Idx := Tmp_Idx; loop if End_Idx < Idx then return False; elsif Sloc_Trace (End_Idx) /= ' ' then exit; else End_Idx := End_Idx - 1; end if; end loop; -- Now see if file name matches what is in Name_Buffer -- and if so, step Idx past it and return True. If the -- name does not match, return False. if Sloc_Trace (Idx .. End_Idx) = Name_Buffer (1 .. Name_Len) then Idx := Tmp_Idx + 2; Idx := Skip_Spaces; return True; else return False; end if; end File_Name_Match; -------------------- -- Line_Num_Match -- -------------------- function Line_Num_Match return Boolean is N : Int := 0; begin if Idx = 0 then return False; end if; while Idx <= Last and then Sloc_Trace (Idx) in '0' .. '9' loop N := N * 10 + (Character'Pos (Sloc_Trace (Idx)) - Character'Pos ('0')); Idx := Idx + 1; end loop; if Get_Physical_Line_Number (P) = Physical_Line_Number (N) then while Idx <= Last and then Sloc_Trace (Idx) /= '[' loop Idx := Idx + 1; end loop; if Idx <= Last and then Sloc_Trace (Idx) = '[' then Idx := Idx + 1; Idx := Skip_Spaces; else Idx := 0; end if; return True; else return False; end if; end Line_Num_Match; ----------------- -- Skip_Spaces -- ----------------- function Skip_Spaces return Natural is Res : Natural; begin Res := Idx; while Sloc_Trace (Res) = ' ' loop Res := Res + 1; if Res > Last then Res := 0; exit; end if; end loop; return Res; end Skip_Spaces; begin P := Sloc (E); Sindex := Get_Source_File_Index (P); Get_Name_String (File_Name (Sindex)); Idx := Skip_Spaces; while Idx > 0 loop if not File_Name_Match then goto Continue; elsif not Line_Num_Match then goto Continue; end if; if Different_Trace_Lengths then goto Continue; end if; end loop; end; end if; -- If we have a Result_Type, then we must have a function with -- the proper result type. if Elmt.Result_Type /= No_Name then if Ekind (E) /= E_Function or else Chars (Etype (E)) /= Elmt.Result_Type then goto Continue; end if; end if; -- If we have Parameter_Types, they must match if Elmt.Parameter_Types /= null then Form := First_Formal (E); if No (Form) and then Elmt.Parameter_Types'Length = 1 and then Elmt.Parameter_Types (1) = No_Name then -- Parameterless procedure matches null; elsif Elmt.Parameter_Types = null then goto Continue; else for J in Elmt.Parameter_Types'Range loop if No (Form) or else Chars (Etype (Form)) /= Elmt.Parameter_Types (J) then goto Continue; else Next_Formal (Form); end if; end loop; if Present (Form) then goto Continue; end if; end if; end if; -- If we fall through, this is match Set_Eliminated; return; end if; end Check_Homonyms; <<Continue>> Elmt := Elmt.Homonym; end loop; return; end Check_Eliminated; ------------------------------------- -- Check_For_Eliminated_Subprogram -- ------------------------------------- procedure Check_For_Eliminated_Subprogram (N : Node_Id; S : Entity_Id) is Ultimate_Subp : constant Entity_Id := Ultimate_Alias (S); Enclosing_Subp : Entity_Id; begin if Is_Eliminated (Ultimate_Subp) and then not Inside_A_Generic and then not Is_Generic_Unit (Cunit_Entity (Current_Sem_Unit)) then Enclosing_Subp := Current_Subprogram; while Present (Enclosing_Subp) loop if Is_Eliminated (Enclosing_Subp) then return; end if; Enclosing_Subp := Enclosing_Subprogram (Enclosing_Subp); end loop; Eliminate_Error_Msg (N, Ultimate_Subp); end if; end Check_For_Eliminated_Subprogram; ------------------------- -- Eliminate_Error_Msg -- ------------------------- procedure Eliminate_Error_Msg (N : Node_Id; E : Entity_Id) is begin for J in Elim_Entities.First .. Elim_Entities.Last loop if E = Elim_Entities.Table (J).Subp then Error_Msg_Sloc := Sloc (Elim_Entities.Table (J).Prag); Error_Msg_NE ("cannot reference subprogram & eliminated #", N, E); return; end if; end loop; -- If this is an internal operation generated for a protected operation, -- its name does not match the source name, so just report the error. if not Comes_From_Source (E) and then Present (First_Entity (E)) and then Is_Concurrent_Record_Type (Etype (First_Entity (E))) then Error_Msg_NE ("cannot reference eliminated protected subprogram", N, E); -- Otherwise should not fall through, entry should be in table else raise Program_Error; end if; end Eliminate_Error_Msg; ---------------- -- Initialize -- ---------------- procedure Initialize is begin Elim_Hash_Table.Reset; Elim_Entities.Init; No_Elimination := True; end Initialize; ------------------------------ -- Process_Eliminate_Pragma -- ------------------------------ procedure Process_Eliminate_Pragma (Pragma_Node : Node_Id; Arg_Unit_Name : Node_Id; Arg_Entity : Node_Id; Arg_Parameter_Types : Node_Id; Arg_Result_Type : Node_Id; Arg_Source_Location : Node_Id) is Data : constant Access_Elim_Data := new Elim_Data; -- Build result data here Elmt : Access_Elim_Data; Num_Names : Nat := 0; -- Number of names in unit name Lit : Node_Id; Arg_Ent : Entity_Id; Arg_Uname : Node_Id; function OK_Selected_Component (N : Node_Id) return Boolean; -- Test if N is a selected component with all identifiers, or a -- selected component whose selector is an operator symbol. As a -- side effect if result is True, sets Num_Names to the number -- of names present (identifiers and operator if any). --------------------------- -- OK_Selected_Component -- --------------------------- function OK_Selected_Component (N : Node_Id) return Boolean is begin if Nkind (N) = N_Identifier or else Nkind (N) = N_Operator_Symbol then Num_Names := Num_Names + 1; return True; elsif Nkind (N) = N_Selected_Component then return OK_Selected_Component (Prefix (N)) and then OK_Selected_Component (Selector_Name (N)); else return False; end if; end OK_Selected_Component; -- Start of processing for Process_Eliminate_Pragma begin Data.Prag := Pragma_Node; Error_Msg_Name_1 := Name_Eliminate; -- Process Unit_Name argument if Nkind (Arg_Unit_Name) = N_Identifier then Data.Unit_Name := new Names'(1 => Chars (Arg_Unit_Name)); Num_Names := 1; elsif OK_Selected_Component (Arg_Unit_Name) then Data.Unit_Name := new Names (1 .. Num_Names); Arg_Uname := Arg_Unit_Name; for J in reverse 2 .. Num_Names loop Data.Unit_Name (J) := Chars (Selector_Name (Arg_Uname)); Arg_Uname := Prefix (Arg_Uname); end loop; Data.Unit_Name (1) := Chars (Arg_Uname); else Error_Msg_N ("wrong form for Unit_Name parameter of pragma%", Arg_Unit_Name); return; end if; -- Process Entity argument if Present (Arg_Entity) then Num_Names := 0; if Nkind (Arg_Entity) = N_Identifier or else Nkind (Arg_Entity) = N_Operator_Symbol then Data.Entity_Name := Chars (Arg_Entity); Data.Entity_Node := Arg_Entity; Data.Entity_Scope := null; elsif OK_Selected_Component (Arg_Entity) then Data.Entity_Scope := new Names (1 .. Num_Names - 1); Data.Entity_Name := Chars (Selector_Name (Arg_Entity)); Data.Entity_Node := Arg_Entity; Arg_Ent := Prefix (Arg_Entity); for J in reverse 2 .. Num_Names - 1 loop Data.Entity_Scope (J) := Chars (Selector_Name (Arg_Ent)); Arg_Ent := Prefix (Arg_Ent); end loop; Data.Entity_Scope (1) := Chars (Arg_Ent); elsif Is_Config_Static_String (Arg_Entity) then Data.Entity_Name := Name_Find; Data.Entity_Node := Arg_Entity; else return; end if; else Data.Entity_Node := Empty; Data.Entity_Name := Data.Unit_Name (Num_Names); end if; -- Process Parameter_Types argument if Present (Arg_Parameter_Types) then -- Here for aggregate case if Nkind (Arg_Parameter_Types) = N_Aggregate then Data.Parameter_Types := new Names (1 .. List_Length (Expressions (Arg_Parameter_Types))); Lit := First (Expressions (Arg_Parameter_Types)); for J in Data.Parameter_Types'Range loop if Is_Config_Static_String (Lit) then Data.Parameter_Types (J) := Name_Find; Next (Lit); else return; end if; end loop; -- Otherwise we must have case of one name, which looks like a -- parenthesized literal rather than an aggregate. elsif Paren_Count (Arg_Parameter_Types) /= 1 then Error_Msg_N ("wrong form for argument of pragma Eliminate", Arg_Parameter_Types); return; elsif Is_Config_Static_String (Arg_Parameter_Types) then String_To_Name_Buffer (Strval (Arg_Parameter_Types)); if Name_Len = 0 then -- Parameterless procedure Data.Parameter_Types := new Names'(1 => No_Name); else Data.Parameter_Types := new Names'(1 => Name_Find); end if; else return; end if; end if; -- Process Result_Types argument if Present (Arg_Result_Type) then if Is_Config_Static_String (Arg_Result_Type) then Data.Result_Type := Name_Find; else return; end if; -- Here if no Result_Types argument else Data.Result_Type := No_Name; end if; -- Process Source_Location argument if Present (Arg_Source_Location) then if Is_Config_Static_String (Arg_Source_Location) then Data.Source_Location := Name_Find; else return; end if; else Data.Source_Location := No_Name; end if; Elmt := Elim_Hash_Table.Get (Hash_Subprograms.Get_Key (Data)); -- If we already have an entry with this same key, then link -- it into the chain of entries for this key. if Elmt /= null then Data.Homonym := Elmt.Homonym; Elmt.Homonym := Data; -- Otherwise create a new entry else Elim_Hash_Table.Set (Data); end if; No_Elimination := False; end Process_Eliminate_Pragma; end Sem_Elim;
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