-- GHDL Run Time (GRT) - entry point. -- Copyright (C) 2002 - 2014 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 GCC; see the file COPYING. If not, write to the Free -- Software Foundation, 59 Temple Place - Suite 330, Boston, MA -- 02111-1307, USA. -- -- As a special exception, if other files instantiate generics from this -- unit, or you link this unit with other files to produce an executable, -- this unit does not by itself cause the resulting executable to be -- covered by the GNU General Public License. This exception does not -- however invalidate any other reasons why the executable file might be -- covered by the GNU Public License. with System.Storage_Elements; -- Work around GNAT bug. pragma Unreferenced (System.Storage_Elements); with Grt.Types; use Grt.Types; with Grt.Errors; with Grt.Stacks; with Grt.Processes; with Grt.Signals; with Grt.Options; use Grt.Options; with Grt.Stats; with Grt.Hooks; with Grt.Disp_Signals; with Grt.Disp; with Grt.Modules; with Grt.Change_Generics; -- The following packages are not referenced in this package. -- These are subprograms called only from GHDL generated code. -- They are with'ed in order to be present in the binary. pragma Warnings (Off); with Grt.Files; with Grt.Types; with Grt.Lib; with Grt.Shadow_Ieee; with Grt.Images; with Grt.Values; with Grt.Names; pragma Warnings (On); package body Grt.Main is procedure Ghdl_Elaborate; pragma Import (C, Ghdl_Elaborate, "__ghdl_ELABORATE"); -- Wrapper around elaboration just to return 0. function Ghdl_Elaborate_Wrapper return Integer is begin Ghdl_Elaborate; return 0; end Ghdl_Elaborate_Wrapper; procedure Ghdl_Init_Top_Generics is begin Grt.Change_Generics.Change_All_Generics; end Ghdl_Init_Top_Generics; procedure Disp_Stats_Hook (Code : Integer); pragma Convention (C, Disp_Stats_Hook); procedure Disp_Stats_Hook (Code : Integer) is pragma Unreferenced (Code); begin Stats.End_Simulation; Stats.Disp_Stats; end Disp_Stats_Hook; procedure Check_Flag_String is Err : Boolean; begin -- The conditions may be statically known. pragma Warnings (Off); Err := False; if (Std_Integer'Size = 32 and Flag_String (3) /= 'i') or else (Std_Integer'Size = 64 and Flag_String (3) /= 'I') then Err := True; end if; if (Std_Time'Size = 32 and Flag_String (4) /= 't') or else (Std_Time'Size = 64 and Flag_String (4) /= 'T') then Err := True; end if; pragma Warnings (On); if Err then Grt.Errors.Error ("GRT is not consistent with the flags used for your design"); end if; end Check_Flag_String; procedure Run is use Grt.Errors; Stop : Boolean; Status : Integer; begin -- Register modules. -- They may insert hooks. Grt.Modules.Register_Modules; -- If the time resolution is to be set by the user, select a default -- resolution. Options may override it. if Flag_String (5) = '?' then Set_Time_Resolution ('n'); end if; -- Decode options. Grt.Options.Decode (Stop); -- Check coherency between GRT and GHDL generated code. Check_Flag_String; -- Early stop (for options such as --help). if Stop then return; end if; -- Internal initializations. Grt.Stacks.Stack_Init; Grt.Hooks.Call_Init_Hooks; Grt.Processes.Init; Grt.Signals.Init; if Flag_Stats then Stats.Start_Elaboration; end if; -- Elaboration. Run through longjump to catch errors. if Grt.Processes.Run_Through_Longjump (Ghdl_Elaborate_Wrapper'Access) < 0 then Grt.Errors.Error ("error during elaboration"); return; end if; if Flag_Stats then Stats.Start_Order; end if; Grt.Hooks.Call_Start_Hooks; if not Flag_No_Run then Grt.Signals.Order_All_Signals; if Grt.Options.Disp_Signals_Map then Grt.Disp_Signals.Disp_Signals_Map; end if; if Grt.Options.Disp_Signals_Table then Grt.Disp_Signals.Disp_Signals_Table; end if; if Disp_Signals_Order then Grt.Disp.Disp_Signals_Order; end if; if Disp_Sensitivity then Grt.Disp_Signals.Disp_All_Sensitivity; end if; -- Do the simulation. Status := Grt.Processes.Simulation; end if; if Flag_Stats then Disp_Stats_Hook (0); end if; if Expect_Failure then if Status >= 0 then Expect_Failure := False; Error ("error expected, but none occured"); end if; else if Status < 0 then Error ("simulation failed"); end if; end if; end Run; end Grt.Main;