-- VHDL libraries handling. -- Copyright (C) 2018 Tristan Gingold -- -- GHDL is free software; you can redistribute it and/or modify it under -- the terms of the GNU General Public License as published by the Free -- Software Foundation; either version 2, or (at your option) any later -- version. -- -- GHDL is distributed in the hope that it will be useful, but WITHOUT 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 -- along with GHDL; see the file COPYING. If not, write to the Free -- Software Foundation, 59 Temple Place - Suite 330, Boston, MA -- 02111-1307, USA. with Flags; with Name_Table; with Files_Map; with Vhdl.Utils; use Vhdl.Utils; with Errorout; use Errorout; with Vhdl.Errors; use Vhdl.Errors; with Libraries; use Libraries; with Vhdl.Scanner; with Vhdl.Parse; with Vhdl.Disp_Tree; with Vhdl.Prints; with Vhdl.Sem; with Vhdl.Post_Sems; with Vhdl.Canon; with Vhdl.Nodes_GC; package body Vhdl.Sem_Lib is procedure Error_Lib_Msg (Msg : String; Arg1 : Earg_Type) is begin Report_Msg (Msgid_Error, Library, No_Source_Coord, Msg, (1 => Arg1)); end Error_Lib_Msg; function Load_File (File : Source_File_Entry) return Iir_Design_File is Res : Iir_Design_File; begin Vhdl.Scanner.Set_File (File); if Vhdl.Scanner.Detect_Encoding_Errors then -- Don't even try to parse such a file. The BOM will be interpreted -- as an identifier, which is not valid at the beginning of a file. Res := Null_Iir; else Res := Vhdl.Parse.Parse_Design_File; end if; Vhdl.Scanner.Close_File; if Res /= Null_Iir then Set_Parent (Res, Work_Library); Set_Design_File_Filename (Res, Files_Map.Get_File_Name (File)); Set_Design_File_Source (Res, File); end if; return Res; end Load_File; -- parse a file. -- Return a design_file without putting it into the library -- (because it was not analyzed). function Load_File_Name (File_Name: Name_Id) return Iir_Design_File is Fe : Source_File_Entry; begin Fe := Files_Map.Read_Source_File (Local_Directory, File_Name); if Fe = No_Source_File_Entry then Error_Msg_Option ("cannot open " & Name_Table.Image (File_Name)); return Null_Iir; end if; return Load_File (Fe); end Load_File_Name; procedure Finish_Compilation (Unit : Iir_Design_Unit; Main : Boolean := False) is Lib_Unit : Iir; begin Lib_Unit := Get_Library_Unit (Unit); if (Main or Flags.Dump_All) and then Flags.Dump_Parse then Vhdl.Disp_Tree.Disp_Tree (Unit); end if; if Flags.Check_Ast_Level > 0 then Vhdl.Nodes_GC.Check_Tree (Unit); end if; if Flags.Verbose then Report_Msg (Msgid_Note, Semantic, +Lib_Unit, "analyze %n", (1 => +Lib_Unit)); end if; Sem.Semantic (Unit); if (Main or Flags.Dump_All) and then Flags.Dump_Sem then Vhdl.Disp_Tree.Disp_Tree (Unit); end if; if Errorout.Nbr_Errors > 0 then return; end if; if (Main or Flags.List_All) and then Flags.List_Sem then Vhdl.Prints.Disp_Vhdl (Unit); end if; if Flags.Check_Ast_Level > 0 then Vhdl.Nodes_GC.Check_Tree (Unit); end if; -- Post checks ---------------- Vhdl.Post_Sems.Post_Sem_Checks (Unit); if Errorout.Nbr_Errors > 0 then return; end if; -- Canonalisation. ------------------ if Flags.Verbose then Report_Msg (Msgid_Note, Semantic, +Lib_Unit, "canonicalize %n", (1 => +Lib_Unit)); end if; Vhdl.Canon.Canonicalize (Unit); if (Main or Flags.Dump_All) and then Flags.Dump_Canon then Vhdl.Disp_Tree.Disp_Tree (Unit); end if; if Errorout.Nbr_Errors > 0 then return; end if; if (Main or Flags.List_All) and then Flags.List_Canon then Vhdl.Prints.Disp_Vhdl (Unit); end if; if Flags.Check_Ast_Level > 0 then Vhdl.Nodes_GC.Check_Tree (Unit); end if; end Finish_Compilation; procedure Free_Dependence_List (Design : Iir_Design_Unit) is List : Iir_List; begin List := Get_Dependence_List (Design); if List /= Null_Iir_List then Free_Recursive_List (List); Destroy_Iir_List (List); end if; end Free_Dependence_List; procedure Load_Parse_Design_Unit (Design_Unit: Iir_Design_Unit; Loc : Iir) is use Vhdl.Scanner; Design_File : constant Iir_Design_File := Get_Design_File (Design_Unit); Fe : Source_File_Entry; Line, Off: Natural; Pos: Source_Ptr; Res: Iir; begin -- The unit must not be loaded. pragma Assert (Get_Date_State (Design_Unit) = Date_Disk); Fe := Get_Design_File_Source (Design_File); if Fe = No_Source_File_Entry then -- Load the file in memory. Fe := Files_Map.Read_Source_File (Get_Design_File_Directory (Design_File), Get_Design_File_Filename (Design_File)); if Fe = No_Source_File_Entry then Error_Lib_Msg ("cannot load %n", +Get_Library_Unit (Design_Unit)); raise Compilation_Error; end if; Set_Design_File_Source (Design_File, Fe); -- Check if the file has changed. if not Files_Map.Is_Eq (Files_Map.Get_File_Checksum (Fe), Get_File_Checksum (Design_File)) then Error_Msg_Sem (+Loc, "file %i has changed and must be reanalysed", +Get_Design_File_Filename (Design_File)); raise Compilation_Error; end if; end if; if Get_Date (Design_Unit) = Date_Obsolete then Error_Msg_Sem (+Loc, "%n has been obsoleted", +Get_Library_Unit (Design_Unit)); raise Compilation_Error; end if; -- Set the position of the lexer Set_File (Fe); Pos := Get_Design_Unit_Source_Pos (Design_Unit); Line := Natural (Get_Design_Unit_Source_Line (Design_Unit)); Off := Natural (Get_Design_Unit_Source_Col (Design_Unit)); Files_Map.File_Add_Line_Number (Get_Current_Source_File, Line, Pos); Set_Current_Position (Pos + Source_Ptr (Off)); -- Parse Scan; Res := Vhdl.Parse.Parse_Design_Unit; Close_File; if Res = Null_Iir then raise Compilation_Error; end if; Set_Date_State (Design_Unit, Date_Parse); -- FIXME: check the library unit read is the one expected. -- Move the unit in the library: keep the design_unit of the library, -- but replace the library_unit by the one that has been parsed. Do -- not forget to relocate parents. Vhdl.Utils.Free_Recursive (Get_Library_Unit (Design_Unit)); Set_Library_Unit (Design_Unit, Get_Library_Unit (Res)); Set_Design_Unit (Get_Library_Unit (Res), Design_Unit); Set_Parent (Get_Library_Unit (Res), Design_Unit); declare Item : Iir; begin Item := Get_Context_Items (Res); Set_Context_Items (Design_Unit, Item); while Is_Valid (Item) loop Set_Parent (Item, Design_Unit); Item := Get_Chain (Item); end loop; end; Location_Copy (Design_Unit, Res); Free_Dependence_List (Design_Unit); Set_Dependence_List (Design_Unit, Get_Dependence_List (Res)); Set_Dependence_List (Res, Null_Iir_List); Free_Iir (Res); end Load_Parse_Design_Unit; procedure Error_Obsolete (Loc : Iir; Msg : String; Args : Earg_Arr) is begin if not Flags.Flag_Elaborate_With_Outdated then if Loc = Null_Iir then Error_Msg_Sem (Command_Line_Location, Msg, Args); else Error_Msg_Sem (+Loc, Msg, Args); end if; end if; end Error_Obsolete; -- Check if one of its dependency makes this unit obsolete. function Check_Obsolete_Dependence (Design_Unit : Iir; Loc : Iir) return Boolean is List : constant Iir_List := Get_Dependence_List (Design_Unit); Du_Ts : constant Time_Stamp_Id := Get_Analysis_Time_Stamp (Get_Design_File (Design_Unit)); U_Ts : Time_Stamp_Id; El : Iir; It : List_Iterator; begin if List = Null_Iir_List then return False; end if; It := List_Iterate (List); while Is_Valid (It) loop El := Get_Element (It); if Get_Kind (El) = Iir_Kind_Design_Unit then U_Ts := Get_Analysis_Time_Stamp (Get_Design_File (El)); if Files_Map.Is_Gt (U_Ts, Du_Ts) then Error_Obsolete (Loc, "%n is obsoleted by %n", (+Design_Unit, +El)); return True; end if; end if; Next (It); end loop; return False; end Check_Obsolete_Dependence; procedure Explain_Obsolete (Design_Unit : Iir_Design_Unit; Loc : Iir) is List : Iir_List; It : List_Iterator; El : Iir; begin pragma Assert (Get_Date_State (Design_Unit) = Date_Analyze); pragma Assert (Get_Date (Design_Unit) = Date_Obsolete); List := Get_Dependence_List (Design_Unit); if List = Null_Iir_List then -- Argh, we don't know why. Error_Obsolete (Loc, "%n is obsolete", (1 => +Design_Unit)); return; end if; It := List_Iterate (List); while Is_Valid (It) loop El := Get_Element (It); if Get_Date (El) = Date_Obsolete then Error_Obsolete (Loc, "%n is obsoleted by %n", (+Design_Unit, +El)); return; end if; Next (It); end loop; end Explain_Obsolete; -- Load, parse, analyze, back-end a design_unit if necessary. procedure Load_Design_Unit (Design_Unit : Iir_Design_Unit; Loc : Iir) is Warnings : Warnings_Setting; begin if Get_Date (Design_Unit) = Date_Replacing then Error_Msg_Sem (+Loc, "circular reference of %n", +Design_Unit); return; end if; if Get_Date_State (Design_Unit) = Date_Disk then Load_Parse_Design_Unit (Design_Unit, Loc); end if; if Get_Date_State (Design_Unit) = Date_Parse then -- Analyze the design unit. if Get_Date (Design_Unit) = Date_Analyzed then -- Work-around for an internal check in sem. -- FIXME: to be removed ? Set_Date (Design_Unit, Date_Parsed); end if; -- Avoid infinite recursion, if the unit is self-referenced. Set_Date_State (Design_Unit, Date_Analyze); -- Disable all warnings. Warnings are emitted only when the unit -- is analyzed. Save_Warnings_Setting (Warnings); Disable_All_Warnings; -- Analyze unit. Finish_Compilation (Design_Unit); -- Restore warnings. Restore_Warnings_Setting (Warnings); -- Check if one of its dependency makes this unit obsolete. -- FIXME: to do when the dependency is added ? if not Flags.Flag_Elaborate_With_Outdated and then Check_Obsolete_Dependence (Design_Unit, Loc) then Set_Date (Design_Unit, Date_Obsolete); return; end if; end if; case Get_Date (Design_Unit) is when Date_Parsed => raise Internal_Error; when Date_Analyzing => -- Self-referenced unit. return; when Date_Analyzed => -- FIXME: Accept it silently ? -- Note: this is used when Flag_Elaborate_With_Outdated is set. -- This is also used by anonymous configuration declaration. null; when Date_Uptodate => return; when Date_Valid => null; when Date_Obsolete => if not Flags.Flag_Elaborate_With_Outdated then Explain_Obsolete (Design_Unit, Loc); end if; when others => raise Internal_Error; end case; end Load_Design_Unit; function Load_Primary_Unit (Library: Iir_Library_Declaration; Name: Name_Id; Loc : Iir) return Iir_Design_Unit is Design_Unit: Iir_Design_Unit; begin Design_Unit := Find_Primary_Unit (Library, Name); if Design_Unit /= Null_Iir then Load_Design_Unit (Design_Unit, Loc); end if; return Design_Unit; end Load_Primary_Unit; -- Load an secondary unit and analyse it. function Load_Secondary_Unit (Primary: Iir_Design_Unit; Name: Name_Id; Loc : Iir) return Iir_Design_Unit is Design_Unit: Iir_Design_Unit; begin Design_Unit := Find_Secondary_Unit (Primary, Name); if Design_Unit /= Null_Iir then Load_Design_Unit (Design_Unit, Loc); end if; return Design_Unit; end Load_Secondary_Unit; end Vhdl.Sem_Lib;