-- LLVM back-end for ortho - Main subprogram. -- Copyright (C) 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. with Ada.Command_Line; use Ada.Command_Line; with Ada.Unchecked_Deallocation; with Ada.Unchecked_Conversion; with Ada.Text_IO; use Ada.Text_IO; with Ortho_Front; use Ortho_Front; with LLVM.BitWriter; with LLVM.Core; use LLVM.Core; with LLVM.Target; use LLVM.Target; with LLVM.TargetMachine; use LLVM.TargetMachine; with LLVM.Analysis; with LLVM.Transforms.Scalar; with Ortho_LLVM; use Ortho_LLVM; with Interfaces; with Interfaces.C; use Interfaces.C; procedure Ortho_Code_Main35 is -- Name of the output filename (given by option '-o'). Output : String_Acc := null; type Output_Kind_Type is (Output_Llvm, Output_Bytecode, Output_Assembly, Output_Object); Output_Kind : Output_Kind_Type := Output_Llvm; -- True if the LLVM output must be displayed (set by '--dump-llvm') Flag_Dump_Llvm : Boolean := False; -- Index of the first file argument. First_File : Natural; -- Current option index. Optind : Natural; -- Number of arguments. Argc : constant Natural := Argument_Count; -- Name of the module. Module_Name : String := "ortho" & Ascii.Nul; -- Target triple. Triple : Cstring := Empty_Cstring; Target : aliased TargetRef; CPU : constant Cstring := Empty_Cstring; Features : constant Cstring := Empty_Cstring; Reloc : constant RelocMode := RelocDefault; function To_String (C : Cstring) return String is function Strlen (C : Cstring) return Natural; pragma Import (C, Strlen); subtype Fat_String is String (Positive); type Fat_String_Acc is access Fat_String; function To_Fat_String_Acc is new Ada.Unchecked_Conversion (Cstring, Fat_String_Acc); begin return To_Fat_String_Acc (C)(1 .. Strlen (C)); end To_String; Codegen : CodeGenFileType := ObjectFile; Msg : aliased Cstring; begin Ortho_Front.Init; -- Decode options. First_File := Natural'Last; Optind := 1; while Optind <= Argc loop declare Arg : constant String := Argument (Optind); begin if Arg (1) = '-' then if Arg = "--dump-llvm" then Flag_Dump_Llvm := True; elsif Arg = "-o" then if Optind = Argc then Put_Line (Standard_Error, "error: missing filename to '-o'"); return; end if; Output := new String'(Argument (Optind + 1) & ASCII.Nul); Optind := Optind + 1; elsif Arg = "-quiet" then -- Skip silently. null; elsif Arg = "-S" then Output_Kind := Output_Assembly; Codegen := AssemblyFile; elsif Arg = "-c" then Output_Kind := Output_Object; Codegen := ObjectFile; elsif Arg = "-O0" then Optimization := CodeGenLevelNone; elsif Arg = "-O1" or else Arg = "-O" then Optimization := CodeGenLevelLess; elsif Arg = "-O2" then Optimization := CodeGenLevelDefault; elsif Arg = "-O3" then Optimization := CodeGenLevelAggressive; elsif Arg = "--emit-llvm" then Output_Kind := Output_Llvm; elsif Arg = "--emit-bc" then Output_Kind := Output_Bytecode; elsif Arg = "-glines" or else Arg = "-gline-tables-only" then null; elsif Arg = "-g" then null; else -- This is really an argument. declare procedure Unchecked_Deallocation is new Ada.Unchecked_Deallocation (Name => String_Acc, Object => String); Opt : String_Acc := new String'(Arg); Opt_Arg : String_Acc; Res : Natural; begin Opt_Arg := null; if Optind < Argument_Count then declare Arg1 : constant String := Argument (Optind + 1); begin if Arg1 (Arg1'First) /= '-' then Opt_Arg := new String'(Arg1); end if; end; end if; Res := Ortho_Front.Decode_Option (Opt, Opt_Arg); case Res is when 0 => Put_Line (Standard_Error, "unknown option '" & Arg & "'"); return; when 1 => null; when 2 => Optind := Optind + 1; when others => raise Program_Error; end case; Unchecked_Deallocation (Opt); Unchecked_Deallocation (Opt_Arg); end; end if; else First_File := Optind; exit; end if; end; Optind := Optind + 1; end loop; -- Link with LLVM libraries. InitializeNativeTarget; InitializeNativeAsmPrinter; -- LinkInJIT; Module := ModuleCreateWithName (Module_Name'Address); -- Extract target triple Triple := GetDefaultTargetTriple; SetTarget (Module, Triple); -- Get Target if GetTargetFromTriple (Triple, Target'Access, Msg'Access) /= 0 then raise Program_Error; end if; -- Create a target machine Target_Machine := CreateTargetMachine (Target, Triple, CPU, Features, Optimization, Reloc, CodeModelDefault); Target_Data := GetTargetMachineData (Target_Machine); SetDataLayout (Module, CopyStringRepOfTargetData (Target_Data)); Ortho_LLVM.Init; Set_Exit_Status (Failure); if First_File > Argument_Count then begin if not Parse (null) then return; end if; exception when others => return; end; else for I in First_File .. Argument_Count loop declare Filename : constant String_Acc := new String'(Argument (First_File)); begin if not Parse (Filename) then return; end if; exception when others => return; end; end loop; end if; if Flag_Dump_Llvm then DumpModule (Module); end if; -- Verify module. if False then if LLVM.Analysis.VerifyModule (Module, LLVM.Analysis.PrintMessageAction, Msg'Access) /= 0 then DisposeMessage (Msg); raise Program_Error; end if; end if; if Optimization > CodeGenLevelNone then declare use LLVM.Transforms.Scalar; Global_Manager : constant Boolean := False; Pass_Manager : PassManagerRef; Res : Bool; pragma Unreferenced (Res); A_Func : ValueRef; begin if Global_Manager then Pass_Manager := CreatePassManager; else Pass_Manager := CreateFunctionPassManagerForModule (Module); end if; LLVM.Target.AddTargetData (Target_Data, Pass_Manager); AddPromoteMemoryToRegisterPass (Pass_Manager); AddCFGSimplificationPass (Pass_Manager); if Global_Manager then Res := RunPassManager (Pass_Manager, Module); else A_Func := GetFirstFunction (Module); while A_Func /= Null_ValueRef loop Res := RunFunctionPassManager (Pass_Manager, A_Func); A_Func := GetNextFunction (A_Func); end loop; end if; end; end if; if Output /= null then declare Error : Boolean; begin Msg := Empty_Cstring; case Output_Kind is when Output_Assembly | Output_Object => Error := LLVM.TargetMachine.TargetMachineEmitToFile (Target_Machine, Module, Output.all'Address, Codegen, Msg'Access) /= 0; when Output_Bytecode => Error := LLVM.BitWriter.WriteBitcodeToFile (Module, Output.all'Address) /= 0; when Output_Llvm => Error := PrintModuleToFile (Module, Output.all'Address, Msg'Access) /= 0; end case; if Error then Put_Line (Standard_Error, "error while writing to " & Output.all); if Msg /= Empty_Cstring then Put_Line (Standard_Error, "message: " & To_String (Msg)); DisposeMessage (Msg); end if; Set_Exit_Status (2); return; end if; end; else DumpModule (Module); end if; Set_Exit_Status (Success); exception when others => Set_Exit_Status (2); raise; end Ortho_Code_Main35;