-- Debugger for interpreter -- 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 GHDL; see the file COPYING. If not, write to the Free -- Software Foundation, 59 Temple Place - Suite 330, Boston, MA -- 02111-1307, USA. with System; with Ada.Text_IO; use Ada.Text_IO; with GNAT.Table; with Types; use Types; with Iir_Values; use Iir_Values; with Name_Table; with Files_Map; with Parse; with Scanner; with Tokens; with Sem_Expr; with Sem_Scopes; with Std_Names; with Libraries; with Std_Package; with Annotations; use Annotations; with Iirs_Utils; use Iirs_Utils; with Errorout; use Errorout; with Disp_Vhdl; with Execution; use Execution; with Simulation; use Simulation; with Iirs_Walk; use Iirs_Walk; with Areapools; use Areapools; with Grt.Disp; with Grt.Readline; with Grt.Errors; with Grt.Disp_Signals; package body Debugger is -- This exception can be raised by a debugger command to directly return -- to the prompt. Command_Error : exception; Dbg_Top_Frame : Block_Instance_Acc; Dbg_Cur_Frame : Block_Instance_Acc; procedure Set_Cur_Frame (Frame : Block_Instance_Acc) is begin Dbg_Cur_Frame := Frame; end Set_Cur_Frame; procedure Set_Top_Frame (Frame : Block_Instance_Acc) is begin Dbg_Top_Frame := Frame; Set_Cur_Frame (Frame); end Set_Top_Frame; type Breakpoint_Entry is record Stmt : Iir; end record; package Breakpoints is new GNAT.Table (Table_Index_Type => Natural, Table_Component_Type => Breakpoint_Entry, Table_Low_Bound => 1, Table_Initial => 16, Table_Increment => 100); -- Current execution state, or reason to stop execution (set by the -- last debugger command). type Exec_State_Type is (-- Execution should continue until a breakpoint is reached or assertion -- failure. Exec_Run, -- Execution will stop at the next statement. Exec_Single_Step, -- Execution will stop at the next statement in the same frame. Exec_Next); Exec_State : Exec_State_Type := Exec_Run; Exec_Instance : Block_Instance_Acc; -- Disp a message during execution. procedure Error_Msg_Exec (Msg: String; Loc: in Iir) is begin Disp_Iir_Location (Loc); Put (Standard_Error, ' '); Put_Line (Standard_Error, Msg); Grt.Errors.Fatal_Error; end Error_Msg_Exec; procedure Warning_Msg_Exec (Msg: String; Loc: Iir) is begin Disp_Iir_Location (Loc); Put (Standard_Error, "warning: "); Put_Line (Standard_Error, Msg); end Warning_Msg_Exec; -- Disp a message for a constraint error. procedure Error_Msg_Constraint (Expr: in Iir) is begin if Expr /= Null_Iir then Disp_Iir_Location (Expr); end if; Put (Standard_Error, "constraint violation"); if Expr /= Null_Iir then case Get_Kind (Expr) is when Iir_Kind_Addition_Operator => Put_Line (Standard_Error, " in the ""+"" operation"); when Iir_Kind_Substraction_Operator => Put_Line (Standard_Error, " in the ""-"" operation"); when Iir_Kind_Integer_Literal => Put_Line (Standard_Error, ", literal out of range"); when Iir_Kind_Signal_Interface_Declaration | Iir_Kind_Signal_Declaration => Put_Line (Standard_Error, " for " & Disp_Node (Expr)); when others => New_Line (Standard_Error); end case; end if; Grt.Errors.Fatal_Error; end Error_Msg_Constraint; function Get_Instance_Local_Name (Instance : Block_Instance_Acc; Short : Boolean := False) return String is Name : constant Iir := Instance.Label; begin if Name = Null_Iir then return ""; end if; case Get_Kind (Name) is when Iir_Kind_Block_Statement | Iir_Kind_Generate_Statement | Iir_Kind_Component_Instantiation_Statement | Iir_Kind_Procedure_Declaration | Iir_Kinds_Process_Statement => return Image_Identifier (Name); when Iir_Kind_Iterator_Declaration => return Image_Identifier (Get_Parent (Name)) & '(' & Execute_Image_Attribute (Instance.Objects (Get_Info (Name).Slot), Get_Type (Name)) & ')'; when Iir_Kind_Architecture_Declaration => if Short then return Image_Identifier (Get_Entity (Name)); else return Image_Identifier (Get_Entity (Name)) & '(' & Image_Identifier (Name) & ')'; end if; when others => Error_Kind ("disp_instance_local_name", Name); end case; end Get_Instance_Local_Name; -- Disp the name of an instance, without newline. procedure Disp_Instance_Name (Instance: Block_Instance_Acc; Short : Boolean := False) is begin if Instance.Parent /= null then Disp_Instance_Name (Instance.Parent); Put ('.'); end if; Put (Get_Instance_Local_Name (Instance, Short)); end Disp_Instance_Name; function Get_Instance_Name (Instance: Block_Instance_Acc) return String is function Parent_Name return String is begin if Instance.Parent /= null then return Get_Instance_Name (Instance.Parent) & '.'; else return ""; end if; end Parent_Name; begin return Parent_Name & Get_Instance_Local_Name (Instance); end Get_Instance_Name; procedure Disp_Instances_Tree_Name (Inst : Block_Instance_Acc) is begin if Inst = null then Put ("*null*"); New_Line; return; end if; Put (Get_Instance_Local_Name (Inst)); Put (" "); case Get_Kind (Inst.Label) is when Iir_Kind_Block_Statement => Put ("[block]"); when Iir_Kind_Generate_Statement => Put ("[generate]"); when Iir_Kind_Iterator_Declaration => Put ("[iterator]"); when Iir_Kind_Component_Instantiation_Statement => Put ("[component]"); when Iir_Kinds_Process_Statement => Put ("[process]"); when Iir_Kind_Architecture_Declaration => Put ("[entity]"); when others => Error_Kind ("disp_instances_tree1", Inst.Label); end case; New_Line; end Disp_Instances_Tree_Name; procedure Disp_Instances_Tree1 (Inst : Block_Instance_Acc; Pfx : String) is Child : Block_Instance_Acc; begin Child := Inst.Children; if Child = null then return; end if; loop if Child.Brother /= null then Put (Pfx & "+-"); Disp_Instances_Tree_Name (Child); Disp_Instances_Tree1 (Child, Pfx & "| "); Child := Child.Brother; else Put (Pfx & "`-"); Disp_Instances_Tree_Name (Child); Disp_Instances_Tree1 (Child, Pfx & " "); exit; end if; end loop; end Disp_Instances_Tree1; procedure Disp_Instances_Tree is begin Disp_Instances_Tree_Name (Top_Instance); Disp_Instances_Tree1 (Top_Instance, ""); end Disp_Instances_Tree; -- Disp a block instance, in a human readable way. -- Used to debug. procedure Disp_Block_Instance (Instance: Block_Instance_Acc) is begin Put_Line ("scope level:" & Scope_Level_Type'Image (Instance.Scope_Level)); Put_Line ("Objects:"); for I in Instance.Objects'Range loop Put (Object_Slot_Type'Image (I) & ": "); Disp_Value_Tab (Instance.Objects (I), 3); New_Line; end loop; end Disp_Block_Instance; procedure Disp_Signal (Value : Iir_Value_Literal_Acc; A_Type : Iir); procedure Disp_Signal_Array (Value : Iir_Value_Literal_Acc; A_Type : Iir; Dim : Natural) is begin if Dim = Get_Nbr_Elements (Get_Index_Subtype_List (A_Type)) then Put ("("); for I in Value.Val_Array.V'Range loop if I /= 1 then Put (", "); end if; Disp_Signal (Value.Val_Array.V (I), Get_Element_Subtype (A_Type)); end loop; Put (")"); else Put ("("); Disp_Signal_Array (Value, A_Type, Dim + 1); Put (")"); end if; end Disp_Signal_Array; procedure Disp_Signal_Record (Value : Iir_Value_Literal_Acc; A_Type : Iir) is El : Iir_Element_Declaration; List : Iir_List; begin List := Get_Elements_Declaration_List (Get_Base_Type (A_Type)); Put ("("); for I in Value.Val_Record.V'Range loop El := Get_Nth_Element (List, Natural (I - 1)); if I /= 1 then Put (", "); end if; Put (Name_Table.Image (Get_Identifier (El))); Put (" => "); Disp_Signal (Value.Val_Record.V (I), Get_Type (El)); end loop; Put (")"); end Disp_Signal_Record; procedure Disp_Signal (Value : Iir_Value_Literal_Acc; A_Type : Iir) is begin if Value = null then Put ("!NULL!"); return; end if; case Value.Kind is when Iir_Value_I64 | Iir_Value_F64 | Iir_Value_E32 | Iir_Value_B2 | Iir_Value_Access => Disp_Iir_Value (Value, A_Type); when Iir_Value_Array => Disp_Signal_Array (Value, A_Type, 1); when Iir_Value_Record => Disp_Signal_Record (Value, A_Type); when Iir_Value_Range => -- FIXME. raise Internal_Error; when Iir_Value_Signal => Grt.Disp_Signals.Disp_A_Signal (Value.Sig); when Iir_Value_File | Iir_Value_Protected | Iir_Value_Quantity | Iir_Value_Terminal => raise Internal_Error; end case; end Disp_Signal; procedure Disp_Instance_Signal (Instance: Block_Instance_Acc; Decl : Iir) is Info : constant Sim_Info_Acc := Get_Info (Decl); begin Put (" "); Put (Name_Table.Image (Get_Identifier (Decl))); Put (" = "); Disp_Signal (Instance.Objects (Info.Slot), Get_Type (Decl)); end Disp_Instance_Signal; procedure Disp_Instance_Signals_Of_Chain (Instance: Block_Instance_Acc; Chain : Iir) is El : Iir; begin El := Chain; while El /= Null_Iir loop case Get_Kind (El) is when Iir_Kind_Signal_Declaration | Iir_Kind_Signal_Interface_Declaration => Disp_Instance_Signal (Instance, El); when others => null; end case; El := Get_Chain (El); end loop; end Disp_Instance_Signals_Of_Chain; procedure Disp_Instance_Signals (Instance: Block_Instance_Acc) is Blk : constant Iir := Instance.Label; Child: Block_Instance_Acc; begin case Get_Kind (Blk) is when Iir_Kind_Architecture_Declaration => declare Ent : constant Iir := Get_Entity (Blk); begin Disp_Instance_Name (Instance); Put_Line (" [architecture]:"); Disp_Instance_Signals_Of_Chain (Instance, Get_Port_Chain (Ent)); Disp_Instance_Signals_Of_Chain (Instance, Get_Declaration_Chain (Ent)); end; when Iir_Kind_Block_Statement => Disp_Instance_Name (Instance); Put_Line (" [block]:"); -- FIXME: ports. Disp_Instance_Signals_Of_Chain (Instance, Get_Declaration_Chain (Blk)); when Iir_Kind_Generate_Statement => Disp_Instance_Name (Instance); Put_Line (" [generate]:"); Disp_Instance_Signals_Of_Chain (Instance, Get_Declaration_Chain (Blk)); when Iir_Kind_Component_Instantiation_Statement => null; when Iir_Kinds_Process_Statement => null; when Iir_Kind_Iterator_Declaration => null; when others => Error_Kind ("disp_instance_signals", Instance.Label); end case; Child := Instance.Children; while Child /= null loop Disp_Instance_Signals (Child); Child := Child.Brother; end loop; end Disp_Instance_Signals; -- Disp all signals name and values. procedure Disp_Signals_Value is begin if Disp_Time_Before_Values then Grt.Disp.Disp_Now; end if; Disp_Instance_Signals (Top_Instance); end Disp_Signals_Value; procedure Disp_Objects_Value is begin null; -- -- Disp the results. -- for I in 0 .. Variables.Last loop -- Put (Get_String (Variables.Table (I).Name.all)); -- Put (" = "); -- Put (Get_Str_Value -- (Get_Literal (variables.Table (I).Value.all), -- Get_Type (variables.Table (I).Value.all))); -- if I = variables.Last then -- Put_Line (";"); -- else -- Put (", "); -- end if; -- end loop; end Disp_Objects_Value; procedure Disp_Label (Process : Iir) is Label : Name_Id; begin Label := Get_Label (Process); if Label = Null_Identifier then Put (""); else Put (Name_Table.Image (Label)); end if; end Disp_Label; procedure Disp_Declaration_Objects (Instance : Block_Instance_Acc; Decl_Chain : Iir) is El : Iir; begin El := Decl_Chain; while El /= Null_Iir loop case Get_Kind (El) is when Iir_Kind_Constant_Declaration | Iir_Kind_Variable_Declaration | Iir_Kind_Variable_Interface_Declaration | Iir_Kind_Constant_Interface_Declaration | Iir_Kind_File_Interface_Declaration | Iir_Kind_Object_Alias_Declaration => Put (Disp_Node (El)); Put (" = "); Disp_Value_Tab (Instance.Objects (Get_Info (El).Slot), 3); when Iir_Kind_Signal_Interface_Declaration => declare Sig : Iir_Value_Literal_Acc; begin Sig := Instance.Objects (Get_Info (El).Slot); Put (Disp_Node (El)); Put (" = "); Disp_Signal (Sig, Get_Type (El)); New_Line; end; when Iir_Kind_Type_Declaration | Iir_Kind_Anonymous_Type_Declaration | Iir_Kind_Subtype_Declaration => -- FIXME: disp ranges null; when Iir_Kind_Implicit_Function_Declaration => null; when others => Error_Kind ("disp_declaration_objects", El); end case; El := Get_Chain (El); end loop; end Disp_Declaration_Objects; procedure Disp_Objects (Instance : Block_Instance_Acc) is Decl : constant Iir := Instance.Label; begin Disp_Instance_Name (Instance); New_Line; case Get_Kind (Decl) is when Iir_Kind_Procedure_Declaration | Iir_Kind_Function_Declaration => Disp_Declaration_Objects (Instance, Get_Interface_Declaration_Chain (Decl)); Disp_Declaration_Objects (Instance, Get_Declaration_Chain (Get_Subprogram_Body (Decl))); when Iir_Kind_Architecture_Declaration => declare Entity : constant Iir_Entity_Declaration := Get_Entity (Decl); begin Disp_Declaration_Objects (Instance, Get_Generic_Chain (Entity)); Disp_Declaration_Objects (Instance, Get_Port_Chain (Entity)); Disp_Declaration_Objects (Instance, Get_Declaration_Chain (Entity)); Disp_Declaration_Objects (Instance, Get_Declaration_Chain (Decl)); -- FIXME: processes. end; when Iir_Kind_Component_Instantiation_Statement => null; when others => Error_Kind ("disp_objects", Decl); end case; end Disp_Objects; pragma Unreferenced (Disp_Objects); procedure Disp_Process_Stats is Proc : Iir; Stmt : Iir; Nbr_User_Sensitized_Processes : Natural := 0; Nbr_User_If_Sensitized_Processes : Natural := 0; Nbr_Conc_Sensitized_Processes : Natural := 0; Nbr_User_Non_Sensitized_Processes : Natural := 0; Nbr_Conc_Non_Sensitized_Processes : Natural := 0; begin for I in Processes_Table.First .. Processes_Table.Last loop Proc := Processes_Table.Table (I).Label; case Get_Kind (Proc) is when Iir_Kind_Sensitized_Process_Statement => if Get_Process_Origin (Proc) = Null_Iir then Stmt := Get_Sequential_Statement_Chain (Proc); if Stmt /= Null_Iir and then Get_Kind (Stmt) = Iir_Kind_If_Statement and then Get_Chain (Stmt) = Null_Iir then Nbr_User_If_Sensitized_Processes := Nbr_User_If_Sensitized_Processes + 1; else Nbr_User_Sensitized_Processes := Nbr_User_Sensitized_Processes + 1; end if; else Nbr_Conc_Sensitized_Processes := Nbr_Conc_Sensitized_Processes + 1; end if; when Iir_Kind_Process_Statement => if Get_Process_Origin (Proc) = Null_Iir then Nbr_User_Non_Sensitized_Processes := Nbr_User_Non_Sensitized_Processes + 1; else Nbr_Conc_Non_Sensitized_Processes := Nbr_Conc_Non_Sensitized_Processes + 1; end if; when others => raise Internal_Error; end case; end loop; Put (Natural'Image (Nbr_User_If_Sensitized_Processes)); Put_Line (" user sensitized processes with only a if stmt"); Put (Natural'Image (Nbr_User_Sensitized_Processes)); Put_Line (" user sensitized processes (others)"); Put (Natural'Image (Nbr_User_Non_Sensitized_Processes)); Put_Line (" user non sensitized processes"); Put (Natural'Image (Nbr_Conc_Sensitized_Processes)); Put_Line (" sensitized concurrent statements"); Put (Natural'Image (Nbr_Conc_Non_Sensitized_Processes)); Put_Line (" non sensitized concurrent statements"); Put (Process_Index_Type'Image (Processes_Table.Last)); Put_Line (" processes (total)"); end Disp_Process_Stats; procedure Disp_Signals_Stats is type Counters_Type is array (Signal_Type_Kind) of Natural; Counters : Counters_Type := (others => 0); Nbr_Signal_Elements : Natural := 0; begin for I in Signals_Table.First .. Signals_Table.Last loop declare Ent : Signal_Entry renames Signals_Table.Table (I); begin if Ent.Kind = User_Signal then Nbr_Signal_Elements := Nbr_Signal_Elements + Get_Nbr_Of_Scalars (Signals_Table.Table (I).Sig); end if; Counters (Ent.Kind) := Counters (Ent.Kind) + 1; end; end loop; Put (Integer'Image (Counters (User_Signal))); Put_Line (" declared user signals or ports"); Put (Integer'Image (Nbr_Signal_Elements)); Put_Line (" user signals sub-elements"); Put (Integer'Image (Counters (Implicit_Quiet))); Put_Line (" 'quiet implicit signals"); Put (Integer'Image (Counters (Implicit_Stable))); Put_Line (" 'stable implicit signals"); Put (Integer'Image (Counters (Implicit_Delayed))); Put_Line (" 'delayed implicit signals"); Put (Integer'Image (Counters (Implicit_Transaction))); Put_Line (" 'transaction implicit signals"); Put (Integer'Image (Counters (Guard_Signal))); Put_Line (" guard signals"); end Disp_Signals_Stats; procedure Disp_Design_Stats is begin Disp_Process_Stats; New_Line; Disp_Signals_Stats; New_Line; Put (Integer'Image (Connect_Table.Last)); Put_Line (" connections"); end Disp_Design_Stats; procedure Disp_Design_Non_Sensitized is Instance : Block_Instance_Acc; Proc : Iir; begin for I in Processes_Table.First .. Processes_Table.Last loop Instance := Processes_Table.Table (I); Proc := Processes_Table.Table (I).Label; if Get_Kind (Proc) = Iir_Kind_Process_Statement then Disp_Instance_Name (Instance); New_Line; Put_Line (" at " & Disp_Location (Proc)); end if; end loop; end Disp_Design_Non_Sensitized; procedure Disp_Design_Connections is begin for I in Connect_Table.First .. Connect_Table.Last loop declare Conn : Connect_Entry renames Connect_Table.Table (I); begin Disp_Iir_Location (Conn.Assoc); New_Line; end; end loop; end Disp_Design_Connections; function Walk_Files (Cb : Walk_Cb) return Walk_Status is Lib : Iir_Library_Declaration := Libraries.Get_Libraries_Chain; File : Iir_Design_File; begin while Lib /= Null_Iir loop File := Get_Design_File_Chain (Lib); while File /= Null_Iir loop case Cb.all (File) is when Walk_Continue => null; when Walk_Up => exit; when Walk_Abort => return Walk_Abort; end case; File := Get_Chain (File); end loop; Lib := Get_Chain (Lib); end loop; return Walk_Continue; end Walk_Files; Walk_Units_Cb : Walk_Cb; function Cb_Walk_Units (Design_File : Iir) return Walk_Status is Unit : Iir_Design_Unit; begin Unit := Get_First_Design_Unit (Design_File); while Unit /= Null_Iir loop case Walk_Units_Cb.all (Get_Library_Unit (Unit)) is when Walk_Continue => null; when Walk_Abort => return Walk_Abort; when Walk_Up => exit; end case; Unit := Get_Chain (Unit); end loop; return Walk_Continue; end Cb_Walk_Units; function Walk_Units (Cb : Walk_Cb) return Walk_Status is begin Walk_Units_Cb := Cb; return Walk_Files (Cb_Walk_Units'Access); end Walk_Units; Walk_Declarations_Cb : Walk_Cb; function Cb_Walk_Declarations (Unit : Iir) return Walk_Status is function Walk_Decl_Chain (Chain : Iir) return Walk_Status is Decl : Iir; begin Decl := Chain; while Decl /= Null_Iir loop case Walk_Declarations_Cb.all (Decl) is when Walk_Abort => return Walk_Abort; when Walk_Up => return Walk_Continue; when Walk_Continue => null; end case; Decl := Get_Chain (Decl); end loop; return Walk_Continue; end Walk_Decl_Chain; function Walk_Conc_Chain (Chain : Iir) return Walk_Status is Stmt : Iir := Chain; begin while Stmt /= Null_Iir loop case Get_Kind (Stmt) is when Iir_Kind_Process_Statement => if Walk_Decl_Chain (Get_Declaration_Chain (Stmt)) = Walk_Abort then return Walk_Abort; end if; when others => Error_Kind ("walk_conc_chain", Stmt); end case; Stmt := Get_Chain (Stmt); end loop; return Walk_Continue; end Walk_Conc_Chain; begin case Get_Kind (Unit) is when Iir_Kind_Entity_Declaration => if Walk_Decl_Chain (Get_Generic_Chain (Unit)) = Walk_Abort or else Walk_Decl_Chain (Get_Port_Chain (Unit)) = Walk_Abort or else (Walk_Decl_Chain (Get_Declaration_Chain (Unit)) = Walk_Abort) or else (Walk_Conc_Chain (Get_Concurrent_Statement_Chain (Unit)) = Walk_Abort) then return Walk_Abort; end if; when Iir_Kind_Architecture_Declaration => if (Walk_Decl_Chain (Get_Declaration_Chain (Unit)) = Walk_Abort) or else (Walk_Conc_Chain (Get_Concurrent_Statement_Chain (Unit)) = Walk_Abort) then return Walk_Abort; end if; when Iir_Kind_Package_Declaration | Iir_Kind_Package_Body => if Walk_Decl_Chain (Get_Declaration_Chain (Unit)) = Walk_Abort then return Walk_Abort; end if; when Iir_Kind_Configuration_Declaration => if Walk_Decl_Chain (Get_Declaration_Chain (Unit)) = Walk_Abort then return Walk_Abort; end if; -- FIXME: block configuration ? when others => Error_Kind ("Cb_Walk_Declarations", Unit); end case; return Walk_Continue; end Cb_Walk_Declarations; function Walk_Declarations (Cb : Walk_Cb) return Walk_Status is begin Walk_Declarations_Cb := Cb; return Walk_Units (Cb_Walk_Declarations'Access); end Walk_Declarations; function Is_Blank (C : Character) return Boolean is begin return C = ' ' or else C = ASCII.HT; end Is_Blank; function Skip_Blanks (S : String) return Positive is P : Positive := S'First; begin while P <= S'Last and then Is_Blank (S (P)) loop P := P + 1; end loop; return P; end Skip_Blanks; -- Return the position of the last character of the word (the last -- non-blank character). function Get_Word (S : String) return Positive is P : Positive := S'First; begin while P <= S'Last and then not Is_Blank (S (P)) loop P := P + 1; end loop; return P - 1; end Get_Word; procedure Disp_A_Frame (Instance: Block_Instance_Acc) is begin Put (Disp_Node (Instance.Label)); if Instance.Stmt /= Null_Iir then Put (" at "); Put (Get_Location_Str (Get_Location (Instance.Stmt))); end if; New_Line; end Disp_A_Frame; type Menu_Kind is (Menu_Command, Menu_Submenu); type Menu_Entry (Kind : Menu_Kind); type Menu_Entry_Acc is access all Menu_Entry; type Cst_String_Acc is access constant String; type Menu_Procedure is access procedure (Line : String); type Menu_Entry (Kind : Menu_Kind) is record Name : Cst_String_Acc; Next : Menu_Entry_Acc; case Kind is when Menu_Command => Proc : Menu_Procedure; when Menu_Submenu => First, Last : Menu_Entry_Acc := null; end case; end record; -- Check there is a current process. procedure Check_Current_Process is begin if Current_Process = null then Put_Line ("no current process"); raise Command_Error; end if; end Check_Current_Process; -- The status of the debugger. This status can be modified by a command -- as a side effect to resume or quit the debugger. type Command_Status_Type is (Status_Default, Status_Quit); Command_Status : Command_Status_Type; procedure Help_Proc (Line : String); procedure Disp_Process_Loc (Proc : Process_State_Type) is begin Disp_Instance_Name (Proc.Top_Instance); Put (" (" & Get_Location_Str (Get_Location (Proc.Proc)) & ")"); New_Line; end Disp_Process_Loc; -- Disp the list of processes (and its state) procedure Ps_Proc (Line : String) is pragma Unreferenced (Line); Process : Iir; begin if Processes_State = null then Put_Line ("no processes"); return; end if; for I in Processes_State'Range loop Put (Process_Index_Type'Image (I) & ": "); Process := Processes_State (I).Proc; if Process /= Null_Iir then Disp_Process_Loc (Processes_State (I)); Disp_A_Frame (Processes_State (I).Instance); else Put_Line ("not yet elaborated"); end if; end loop; end Ps_Proc; procedure Up_Proc (Line : String) is pragma Unreferenced (Line); begin Check_Current_Process; if Dbg_Cur_Frame.Parent = null then Put_Line ("top of frames reached"); else Set_Cur_Frame (Dbg_Cur_Frame.Parent); end if; end Up_Proc; procedure Down_Proc (Line : String) is pragma Unreferenced (Line); Inst : Block_Instance_Acc; begin Check_Current_Process; if Dbg_Cur_Frame = Dbg_Top_Frame then Put_Line ("bottom of frames reached"); else Inst := Dbg_Top_Frame; while Inst.Parent /= Dbg_Cur_Frame loop Inst := Inst.Parent; end loop; Set_Cur_Frame (Inst); end if; end Down_Proc; procedure Set_Breakpoint (Stmt : Iir) is begin Put_Line ("set breakpoint at: " & Get_Location_Str (Get_Location (Stmt))); Breakpoints.Append (Breakpoint_Entry'(Stmt => Stmt)); Flag_Need_Debug := True; end Set_Breakpoint; procedure Next_Proc (Line : String) is pragma Unreferenced (Line); begin Exec_State := Exec_Next; Exec_Instance := Dbg_Top_Frame; Flag_Need_Debug := True; Command_Status := Status_Quit; end Next_Proc; procedure Step_Proc (Line : String) is pragma Unreferenced (Line); begin Exec_State := Exec_Single_Step; Flag_Need_Debug := True; Command_Status := Status_Quit; end Step_Proc; Break_Id : Name_Id; function Cb_Set_Break (El : Iir) return Walk_Status is begin case Get_Kind (El) is when Iir_Kind_Function_Declaration | Iir_Kind_Procedure_Declaration => if Get_Identifier (El) = Break_Id then Set_Breakpoint (Get_Sequential_Statement_Chain (Get_Subprogram_Body (El))); end if; when others => null; end case; return Walk_Continue; end Cb_Set_Break; procedure Break_Proc (Line : String) is Status : Walk_Status; P : Natural; begin P := Skip_Blanks (Line); Break_Id := Name_Table.Get_Identifier (Line (P .. Line'Last)); Status := Walk_Declarations (Cb_Set_Break'Access); pragma Assert (Status = Walk_Continue); end Break_Proc; procedure Where_Proc (Line : String) is pragma Unreferenced (Line); Frame : Block_Instance_Acc; begin Check_Current_Process; Frame := Dbg_Top_Frame; while Frame /= null loop if Frame = Dbg_Cur_Frame then Put ("* "); else Put (" "); end if; Disp_A_Frame (Frame); Frame := Frame.Parent; end loop; end Where_Proc; procedure Info_Tree_Proc (Line : String) is pragma Unreferenced (Line); begin if Top_Instance = null then Put_Line ("design not yet fully elaborated"); else Disp_Instances_Tree; end if; end Info_Tree_Proc; procedure Info_Params_Proc (Line : String) is pragma Unreferenced (Line); Decl : Iir; Params : Iir; begin Check_Current_Process; Decl := Dbg_Cur_Frame.Label; if Decl = Null_Iir or else Get_Kind (Decl) not in Iir_Kinds_Subprogram_Declaration then Put_Line ("current frame is not a subprogram"); return; end if; Params := Get_Interface_Declaration_Chain (Decl); Disp_Declaration_Objects (Dbg_Cur_Frame, Params); end Info_Params_Proc; procedure Info_Proc_Proc (Line : String) is pragma Unreferenced (Line); begin Check_Current_Process; Disp_Process_Loc (Current_Process.all); end Info_Proc_Proc; function Cb_Disp_Subprograms (El : Iir) return Walk_Status is begin case Get_Kind (El) is when Iir_Kind_Function_Declaration | Iir_Kind_Procedure_Declaration => Put_Line (Name_Table.Image (Get_Identifier (El))); when others => null; end case; return Walk_Continue; end Cb_Disp_Subprograms; procedure Info_Subprograms_Proc (Line : String) is pragma Unreferenced (Line); Status : Walk_Status; begin Status := Walk_Declarations (Cb_Disp_Subprograms'Access); pragma Assert (Status = Walk_Continue); end Info_Subprograms_Proc; function Cb_Disp_Units (El : Iir) return Walk_Status is begin case Get_Kind (El) is when Iir_Kind_Package_Declaration => Put ("package "); Put_Line (Name_Table.Image (Get_Identifier (El))); when Iir_Kind_Entity_Declaration => Put ("entity "); Put_Line (Name_Table.Image (Get_Identifier (El))); when Iir_Kind_Architecture_Declaration => Put ("architecture "); Put (Name_Table.Image (Get_Identifier (El))); Put (" of "); Put_Line (Name_Table.Image (Get_Identifier (Get_Entity (El)))); when Iir_Kind_Configuration_Declaration => Put ("configuration "); Put_Line (Name_Table.Image (Get_Identifier (El))); when Iir_Kind_Package_Body => null; when others => Error_Kind ("cb_disp_units", El); end case; return Walk_Continue; end Cb_Disp_Units; procedure Info_Units_Proc (Line : String) is pragma Unreferenced (Line); Status : Walk_Status; begin Status := Walk_Units (Cb_Disp_Units'Access); pragma Assert (Status = Walk_Continue); end Info_Units_Proc; function Cb_Disp_File (El : Iir) return Walk_Status is begin Put_Line (Name_Table.Image (Get_Design_File_Filename (El))); return Walk_Continue; end Cb_Disp_File; procedure Info_Stats_Proc (Line : String) is P : Natural := Line'First; E : Natural; begin P := Skip_Blanks (Line (P .. Line'Last)); if P > Line'Last then -- No parameters. Disp_Design_Stats; return; end if; E := Get_Word (Line (P .. Line'Last)); if Line (P .. E) = "global" then Disp_Design_Stats; elsif Line (P .. E) = "non-sensitized" then Disp_Design_Non_Sensitized; null; elsif Line (P .. E) = "connections" then Disp_Design_Connections; -- TODO: nbr of conversions else Put_Line ("options are: global, non-sensitized, connections"); -- TODO: signals: nbr of scalars, nbr of non-user... end if; end Info_Stats_Proc; procedure Info_Files_Proc (Line : String) is pragma Unreferenced (Line); Status : Walk_Status; begin Status := Walk_Files (Cb_Disp_File'Access); pragma Assert (Status = Walk_Continue); end Info_Files_Proc; procedure Info_Libraries_Proc (Line : String) is pragma Unreferenced (Line); Lib : Iir_Library_Declaration := Libraries.Get_Libraries_Chain; begin while Lib /= Null_Iir loop Put_Line (Name_Table.Image (Get_Identifier (Lib))); Lib := Get_Chain (Lib); end loop; end Info_Libraries_Proc; procedure Disp_Declared_Signals_Chain (Chain : Iir; Instance : Block_Instance_Acc) is pragma Unreferenced (Instance); Decl : Iir; begin Decl := Chain; while Decl /= Null_Iir loop case Get_Kind (Decl) is when Iir_Kind_Signal_Interface_Declaration | Iir_Kind_Signal_Declaration => Put_Line (" " & Name_Table.Image (Get_Identifier (Decl))); when others => null; end case; Decl := Get_Chain (Decl); end loop; end Disp_Declared_Signals_Chain; procedure Disp_Declared_Signals (Decl : Iir; Instance : Block_Instance_Acc) is begin case Get_Kind (Decl) is when Iir_Kind_Sensitized_Process_Statement | Iir_Kind_Process_Statement => Disp_Declared_Signals (Get_Parent (Decl), Instance); when Iir_Kind_Architecture_Declaration => Disp_Declared_Signals (Get_Entity (Decl), Instance); when Iir_Kind_Entity_Declaration => null; when others => Error_Kind ("disp_declared_signals", Decl); end case; case Get_Kind (Decl) is when Iir_Kind_Sensitized_Process_Statement | Iir_Kind_Process_Statement => -- No signal declaration in a process (FIXME: implicit signals) null; when Iir_Kind_Architecture_Declaration => Put_Line ("Signals of architecture " & Name_Table.Image (Get_Identifier (Decl)) & ':'); Disp_Declared_Signals_Chain (Get_Declaration_Chain (Decl), Instance); when Iir_Kind_Entity_Declaration => Put_Line ("Ports of entity " & Name_Table.Image (Get_Identifier (Decl)) & ':'); Disp_Declared_Signals_Chain (Get_Port_Chain (Decl), Instance); when others => Error_Kind ("disp_declared_signals (2)", Decl); end case; end Disp_Declared_Signals; procedure Info_Signals_Proc (Line : String) is pragma Unreferenced (Line); begin Check_Current_Process; Disp_Declared_Signals (Current_Process.Proc, Current_Process.Top_Instance); end Info_Signals_Proc; type Handle_Scope_Type is access procedure (N : Iir); procedure Foreach_Scopes (N : Iir; Handler : Handle_Scope_Type) is begin case Get_Kind (N) is when Iir_Kind_Process_Statement | Iir_Kind_Sensitized_Process_Statement => Foreach_Scopes (Get_Parent (N), Handler); Handler.all (N); when Iir_Kind_Architecture_Declaration => Foreach_Scopes (Get_Entity (N), Handler); Handler.all (N); when Iir_Kind_Entity_Declaration => -- Top of scopes. null; when Iir_Kind_Function_Body | Iir_Kind_Procedure_Body => Foreach_Scopes (Get_Parent (N), Handler); Handler.all (N); when Iir_Kind_Package_Body => Handler.all (N); when Iir_Kind_Variable_Assignment_Statement | Iir_Kind_Signal_Assignment_Statement | Iir_Kind_Null_Statement | Iir_Kind_Assertion_Statement | Iir_Kind_Report_Statement | Iir_Kind_Wait_Statement | Iir_Kind_Return_Statement | Iir_Kind_Next_Statement | Iir_Kind_Exit_Statement | Iir_Kind_Procedure_Call_Statement | Iir_Kind_If_Statement | Iir_Kind_While_Loop_Statement => Foreach_Scopes (Get_Parent (N), Handler); when Iir_Kind_For_Loop_Statement | Iir_Kind_Block_Statement | Iir_Kind_Generate_Statement => Foreach_Scopes (Get_Parent (N), Handler); Handler.all (N); when others => Error_Kind ("foreach_scopes", N); end case; end Foreach_Scopes; procedure Add_Decls_For (N : Iir) is use Sem_Scopes; begin case Get_Kind (N) is when Iir_Kind_Entity_Declaration => declare Unit : constant Iir := Get_Design_Unit (N); begin Add_Context_Clauses (Unit); -- Add_Name (Unit, Get_Identifier (N), False); Add_Entity_Declarations (N); end; when Iir_Kind_Architecture_Declaration => Open_Declarative_Region; Add_Context_Clauses (Get_Design_Unit (N)); Add_Declarations (Get_Declaration_Chain (N), False); Add_Declarations_Of_Concurrent_Statement (N); when Iir_Kind_Package_Body => declare Package_Decl : constant Iir := Get_Package (N); Package_Unit : constant Iir := Get_Design_Unit (Package_Decl); begin Add_Name (Package_Unit); Add_Context_Clauses (Package_Unit); Open_Declarative_Region; Add_Declarations (Get_Declaration_Chain (Package_Decl), False); Add_Declarations (Get_Declaration_Chain (N), False); end; when Iir_Kind_Procedure_Body | Iir_Kind_Function_Body => declare Spec : constant Iir := Get_Subprogram_Specification (N); begin Open_Declarative_Region; Add_Declarations (Get_Interface_Declaration_Chain (Spec), False); Add_Declarations (Get_Declaration_Chain (N), False); end; when Iir_Kind_Process_Statement | Iir_Kind_Sensitized_Process_Statement => Open_Declarative_Region; Add_Declarations (Get_Declaration_Chain (N), False); when Iir_Kind_For_Loop_Statement => Open_Declarative_Region; Add_Name (Get_Iterator_Scheme (N)); when Iir_Kind_Block_Statement => Open_Declarative_Region; Add_Declarations (Get_Declaration_Chain (N), False); Add_Declarations_Of_Concurrent_Statement (N); when Iir_Kind_Generate_Statement => Open_Declarative_Region; Add_Declarations (Get_Declaration_Chain (N), False); Add_Declarations_Of_Concurrent_Statement (N); when others => Error_Kind ("enter_scope(2)", N); end case; end Add_Decls_For; procedure Enter_Scope (Node : Iir) is use Sem_Scopes; begin Push_Interpretations; Open_Declarative_Region; -- Add STD Add_Name (Libraries.Std_Library, Std_Names.Name_Std, False); Use_All_Names (Std_Package.Std_Standard_Unit); Foreach_Scopes (Node, Add_Decls_For'Access); end Enter_Scope; procedure Del_Decls_For (N : Iir) is use Sem_Scopes; begin case Get_Kind (N) is when Iir_Kind_Entity_Declaration => null; when Iir_Kind_Architecture_Declaration => Close_Declarative_Region; when Iir_Kind_Process_Statement | Iir_Kind_Sensitized_Process_Statement | Iir_Kind_Package_Body | Iir_Kind_Procedure_Body | Iir_Kind_Function_Body | Iir_Kind_For_Loop_Statement | Iir_Kind_Block_Statement | Iir_Kind_Generate_Statement => Close_Declarative_Region; when others => Error_Kind ("Decl_Decls_For", N); end case; end Del_Decls_For; procedure Leave_Scope (Node : Iir) is use Sem_Scopes; begin Foreach_Scopes (Node, Del_Decls_For'Access); Close_Declarative_Region; Pop_Interpretations; end Leave_Scope; Buffer_Index : Natural := 1; procedure Print_Proc (Line : String) is use Tokens; Index_Str : String := Natural'Image (Buffer_Index); File : Source_File_Entry; Expr : Iir; Res : Iir_Value_Literal_Acc; P : Natural; Opt_Value : Boolean := False; Marker : Mark_Type; begin -- Decode options: /v P := Line'First; loop P := Skip_Blanks (Line (P .. Line'Last)); if P + 2 < Line'Last and then Line (P .. P + 1) = "/v" then Opt_Value := True; P := P + 2; else exit; end if; end loop; Buffer_Index := Buffer_Index + 1; Index_Str (Index_Str'First) := '*'; File := Files_Map.Create_Source_File_From_String (Name_Table.Get_Identifier ("*debug" & Index_Str & '*'), Line (P .. Line'Last)); Scanner.Set_File (File); Scanner.Scan; Expr := Parse.Parse_Expression; if Scanner.Current_Token /= Tok_Eof then Put_Line ("garbage at end of expression ignored"); end if; Scanner.Close_File; if Nbr_Errors /= 0 then Put_Line ("error while parsing expression, evaluation aborted"); Nbr_Errors := 0; return; end if; Enter_Scope (Dbg_Cur_Frame.Stmt); Expr := Sem_Expr.Sem_Expression_Universal (Expr); Leave_Scope (Dbg_Cur_Frame.Stmt); if Expr = Null_Iir or else Nbr_Errors /= 0 then Put_Line ("error while analyzing expression, evaluation aborted"); Nbr_Errors := 0; return; end if; Disp_Vhdl.Disp_Expression (Expr); New_Line; Annotate_Expand_Table; Mark (Marker, Expr_Pool); Res := Execute_Expression (Dbg_Cur_Frame, Expr); if Opt_Value then Disp_Value (Res); else Disp_Iir_Value (Res, Get_Type (Expr)); end if; New_Line; -- Free value Release (Marker, Expr_Pool); end Print_Proc; procedure Quit_Proc (Line : String) is pragma Unreferenced (Line); begin Command_Status := Status_Quit; raise Debugger_Quit; end Quit_Proc; procedure Cont_Proc (Line : String) is pragma Unreferenced (Line); begin Command_Status := Status_Quit; -- Set Flag_Need_Debug only if there is at least one enabled breakpoint. Flag_Need_Debug := False; for I in Breakpoints.First .. Breakpoints.Last loop Flag_Need_Debug := True; exit; end loop; end Cont_Proc; Menu_Info_Stats : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("stats"), Next => null, Proc => Info_Stats_Proc'Access); Menu_Info_Tree : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("tree"), Next => Menu_Info_Stats'Access, Proc => Info_Tree_Proc'Access); Menu_Info_Params : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("param*eters"), Next => Menu_Info_Tree'Access, Proc => Info_Params_Proc'Access); Menu_Info_Subprograms : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("subp*rograms"), Next => Menu_Info_Params'Access, Proc => Info_Subprograms_Proc'Access); Menu_Info_Units : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("units"), Next => Menu_Info_Subprograms'Access, Proc => Info_Units_Proc'Access); Menu_Info_Files : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("files"), Next => Menu_Info_Units'Access, Proc => Info_Files_Proc'Access); Menu_Info_Libraries : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("lib*raries"), Next => Menu_Info_Files'Access, Proc => Info_Libraries_Proc'Access); Menu_Info_Signals : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("sig*nals"), Next => Menu_Info_Libraries'Access, Proc => Info_Signals_Proc'Access); Menu_Info_Proc : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("proc*esses"), Next => Menu_Info_Signals'Access, Proc => Info_Proc_Proc'Access); Menu_Down : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("down"), Next => null, Proc => Down_Proc'Access); Menu_Up : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("up"), Next => Menu_Down'Access, Proc => Up_Proc'Access); Menu_Next : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("n*ext"), Next => Menu_Up'Access, Proc => Next_Proc'Access); Menu_Step : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("s*tep"), Next => Menu_Next'Access, Proc => Step_Proc'Access); Menu_Break : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("b*reak"), Next => Menu_Step'Access, Proc => Break_Proc'Access); Menu_Where : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("where"), Next => Menu_Break'Access, Proc => Where_Proc'Access); Menu_Ps : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("ps"), Next => Menu_Where'Access, Proc => Ps_Proc'Access); Menu_Info : aliased Menu_Entry := (Kind => Menu_Submenu, Name => new String'("i*nfo"), Next => Menu_Ps'Access, First | Last => Menu_Info_Proc'Access); Menu_Print : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("pr*int"), Next => Menu_Info'Access, Proc => Print_Proc'Access); Menu_Cont : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("c*ont"), Next => Menu_Print'Access, Proc => Cont_Proc'Access); Menu_Quit : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("q*uit"), Next => Menu_Cont'Access, Proc => Quit_Proc'Access); Menu_Help1 : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("help"), Next => Menu_Quit'Access, Proc => Help_Proc'Access); Menu_Help2 : aliased Menu_Entry := (Kind => Menu_Command, Name => new String'("?"), Next => Menu_Help1'Access, Proc => Help_Proc'Access); Menu_Top : aliased Menu_Entry := (Kind => Menu_Submenu, Name => null, Next => null, First | Last => Menu_Help2'Access); function Find_Menu (Menu : Menu_Entry_Acc; Cmd : String) return Menu_Entry_Acc is function Is_Cmd (Cmd_Name : String; Str : String) return Boolean is -- Number of characters that were compared. P : Natural; begin P := 0; -- Prefix (before the '*'). loop if P = Cmd_Name'Length then -- Full match. return P = Str'Length; end if; exit when Cmd_Name (Cmd_Name'First + P) = '*'; if P = Str'Length then -- Command is too short return False; end if; if Cmd_Name (Cmd_Name'First + P) /= Str (Str'First + P) then return False; end if; P := P + 1; end loop; -- Suffix (after the '*') loop if P = Str'Length then return True; end if; if P + 1 = Cmd_Name'Length then -- String is too long return False; end if; if Cmd_Name (Cmd_Name'First + P + 1) /= Str (Str'First + P) then return False; end if; P := P + 1; end loop; end Is_Cmd; Ent : Menu_Entry_Acc; begin Ent := Menu.First; while Ent /= null loop if Is_Cmd (Ent.Name.all, Cmd) then return Ent; end if; Ent := Ent.Next; end loop; return null; end Find_Menu; procedure Parse_Command (Line : String; P : in out Natural; Menu : out Menu_Entry_Acc) is E : Natural; begin P := Skip_Blanks (Line (P .. Line'Last)); if P > Line'Last then return; end if; E := Get_Word (Line (P .. Line'Last)); Menu := Find_Menu (Menu, Line (P .. E)); if Menu = null then Put_Line ("command '" & Line (P .. E) & "' not found"); end if; P := E + 1; end Parse_Command; procedure Help_Proc (Line : String) is P : Natural; Root : Menu_Entry_Acc := Menu_Top'access; begin Put_Line ("This is the help command"); P := Line'First; while P < Line'Last loop Parse_Command (Line, P, Root); if Root = null then return; elsif Root.Kind /= Menu_Submenu then Put_Line ("Menu entry " & Root.Name.all & " is not a submenu"); return; end if; end loop; Root := Root.First; while Root /= null loop Put (Root.Name.all); if Root.Kind = Menu_Submenu then Put (" (menu)"); end if; New_Line; Root := Root.Next; end loop; end Help_Proc; procedure Disp_Source_Line (Loc : Location_Type) is use Files_Map; File : Source_File_Entry; Line_Pos : Source_Ptr; Line : Natural; Offset : Natural; Buf : File_Buffer_Acc; Next_Line_Pos : Source_Ptr; begin Location_To_Coord (Loc, File, Line_Pos, Line, Offset); Buf := Get_File_Source (File); Next_Line_Pos := Line_To_Position (File, Line + 1); Put (String (Buf (Line_Pos .. Next_Line_Pos - 1))); end Disp_Source_Line; function Breakpoint_Hit return Natural is Stmt : constant Iir := Current_Process.Instance.Stmt; begin for I in Breakpoints.First .. Breakpoints.Last loop if Stmt = Breakpoints.Table (I).Stmt then return I; end if; end loop; return 0; end Breakpoint_Hit; Prompt_Debug : constant String := "debug> " & ASCII.NUL; Prompt_Crash : constant String := "crash> " & ASCII.NUL; Prompt_Init : constant String := "init> " & ASCII.NUL; Prompt_Elab : constant String := "elab> " & ASCII.NUL; procedure Debug (Reason: Debug_Reason) is use Grt.Readline; Raw_Line : Char_Ptr; Prompt : System.Address; begin -- Unless interractive, do not use the debugger. if Reason /= Reason_Internal_Debug then if not Flag_Interractive then return; end if; end if; Prompt := Prompt_Debug'Address; case Reason is when Reason_Start => Set_Top_Frame (null); Prompt := Prompt_Init'Address; when Reason_Elab => Set_Top_Frame (null); Prompt := Prompt_Elab'Address; when Reason_Internal_Debug => if Current_Process = null then Set_Top_Frame (null); else Set_Top_Frame (Current_Process.Instance); end if; when Reason_Break => case Exec_State is when Exec_Run => if Breakpoint_Hit /= 0 then Put_Line ("breakpoint hit"); else return; end if; when Exec_Single_Step => -- Default state. Exec_State := Exec_Run; when Exec_Next => if Current_Process.Instance /= Exec_Instance then return; end if; -- Default state. Exec_State := Exec_Run; end case; Set_Top_Frame (Current_Process.Instance); declare Stmt : constant Iir := Dbg_Cur_Frame.Stmt; begin Put ("stopped at: "); Disp_Iir_Location (Stmt); New_Line; Disp_Source_Line (Get_Location (Stmt)); end; when Reason_Assert => Set_Top_Frame (Current_Process.Instance); Prompt := Prompt_Crash'Address; Put_Line ("assertion failure, enterring in debugger"); when Reason_Error => Set_Top_Frame (Current_Process.Instance); Prompt := Prompt_Crash'Address; Put_Line ("error occurred, enterring in debugger"); end case; Command_Status := Status_Default; loop loop Raw_Line := Readline (Prompt); -- Skip empty lines exit when Raw_Line /= null and then Raw_Line (1) /= ASCII.NUL; end loop; declare Line_Last : constant Natural := Strlen (Raw_Line); Line : String renames Raw_Line (1 .. Line_Last); P, E : Positive; Cmd : Menu_Entry_Acc := Menu_Top'Access; begin -- Find command P := 1; loop E := P; Parse_Command (Line, E, Cmd); exit when Cmd = null; case Cmd.Kind is when Menu_Submenu => if E > Line_Last then Put_Line ("missing command for submenu " & Line (P .. E - 1)); Cmd := null; exit; end if; P := E; when Menu_Command => exit; end case; end loop; if Cmd /= null then Cmd.Proc.all (Line (E .. Line_Last)); case Command_Status is when Status_Default => null; when Status_Quit => exit; end case; end if; exception when Command_Error => null; end; end loop; -- Put ("resuming"); end Debug; procedure Debug_Error is begin Debug (Reason_Error); end Debug_Error; end Debugger;