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|
-- GHDL Run Time (GRT) - Display subprograms for signals.
-- 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; use System;
with System.Storage_Elements; -- Work around GNAT bug.
pragma Unreferenced (System.Storage_Elements);
with Ada.Unchecked_Conversion;
with Grt.Rtis; use Grt.Rtis;
with Grt.Rtis_Addr; use Grt.Rtis_Addr;
with Grt.Rtis_Utils; use Grt.Rtis_Utils;
with Grt.Astdio; use Grt.Astdio;
with Grt.Errors; use Grt.Errors;
pragma Elaborate_All (Grt.Rtis_Utils);
with Grt.Vstrings; use Grt.Vstrings;
with Grt.Options;
with Grt.Processes;
with Grt.Disp; use Grt.Disp;
package body Grt.Disp_Signals is
procedure Foreach_Scalar_Signal
(Process : access procedure (Val_Addr : Address;
Val_Name : Vstring;
Val_Type : Ghdl_Rti_Access;
Param : Rti_Object))
is
procedure Call_Process (Val_Addr : Address;
Val_Name : Vstring;
Val_Type : Ghdl_Rti_Access;
Param : Rti_Object) is
begin
Process.all (Val_Addr, Val_Name, Val_Type, Param);
end Call_Process;
pragma Inline (Call_Process);
procedure Foreach_Scalar_Signal_Signal is new
Foreach_Scalar (Param_Type => Rti_Object,
Process => Call_Process);
function Foreach_Scalar_Signal_Object
(Ctxt : Rti_Context; Obj : Ghdl_Rti_Access)
return Traverse_Result
is
Sig : Ghdl_Rtin_Object_Acc;
begin
case Obj.Kind is
when Ghdl_Rtik_Signal
| Ghdl_Rtik_Port
| Ghdl_Rtik_Guard
| Ghdl_Rtik_Attribute_Quiet
| Ghdl_Rtik_Attribute_Stable
| Ghdl_Rtik_Attribute_Transaction =>
Sig := To_Ghdl_Rtin_Object_Acc (Obj);
Foreach_Scalar_Signal_Signal
(Ctxt, Sig.Obj_Type,
Loc_To_Addr (Sig.Common.Depth, Sig.Loc, Ctxt), True,
Rti_Object'(Obj, Ctxt));
when others =>
null;
end case;
return Traverse_Ok;
end Foreach_Scalar_Signal_Object;
function Foreach_Scalar_Signal_Traverse is
new Traverse_Blocks (Process => Foreach_Scalar_Signal_Object);
Res : Traverse_Result;
pragma Unreferenced (Res);
begin
Res := Foreach_Scalar_Signal_Traverse (Get_Top_Context);
end Foreach_Scalar_Signal;
procedure Disp_Context (Ctxt : Rti_Context)
is
Blk : Ghdl_Rtin_Block_Acc;
Nctxt : Rti_Context;
begin
Blk := To_Ghdl_Rtin_Block_Acc (Ctxt.Block);
case Blk.Common.Kind is
when Ghdl_Rtik_Block
| Ghdl_Rtik_Process =>
Nctxt := Get_Parent_Context (Ctxt);
Disp_Context (Nctxt);
Put ('.');
Put (Blk.Name);
when Ghdl_Rtik_Entity =>
Put (Blk.Name);
when Ghdl_Rtik_Architecture =>
Nctxt := Get_Parent_Context (Ctxt);
Disp_Context (Nctxt);
Put ('(');
Put (Blk.Name);
Put (')');
when others =>
Internal_Error ("disp_context");
end case;
end Disp_Context;
-- This is a debugging procedure.
pragma Unreferenced (Disp_Context);
-- Option --trace-signals.
-- Disp transaction TRANS from signal SIG.
procedure Disp_Transaction (Trans : Transaction_Acc;
Sig_Type : Ghdl_Rti_Access;
Mode : Mode_Type)
is
T : Transaction_Acc;
begin
T := Trans;
loop
case T.Kind is
when Trans_Value =>
if Sig_Type /= null then
Disp_Value (stdout, T.Val, Sig_Type);
else
Disp_Value (T.Val, Mode);
end if;
when Trans_Direct =>
if Sig_Type /= null then
Disp_Value (stdout, T.Val_Ptr.all, Sig_Type);
else
Disp_Value (T.Val_Ptr.all, Mode);
end if;
when Trans_Null =>
Put ("NULL");
when Trans_Error =>
Put ("ERROR");
end case;
if T.Kind = Trans_Direct then
-- The Time field is not updated for direct transaction.
Put ("[DIRECT]");
else
Put ("@");
Put_Time (stdout, T.Time);
end if;
T := T.Next;
exit when T = null;
Put (", ");
end loop;
end Disp_Transaction;
procedure Disp_Simple_Signal
(Sig : Ghdl_Signal_Ptr; Sig_Type : Ghdl_Rti_Access; Sources : Boolean)
is
function To_Address is new Ada.Unchecked_Conversion
(Source => Resolved_Signal_Acc, Target => Address);
begin
Put (' ');
Put (stdout, Sig.all'Address);
Put (' ');
Disp_Mode (Sig.Mode);
Put (' ');
if Sig.Active then
Put ('A');
else
Put ('-');
end if;
if Sig.Event then
Put ('E');
else
Put ('-');
end if;
if Sig.Has_Active then
Put ('a');
else
Put ('-');
end if;
if Sig.S.Effective /= null then
Put ('e');
else
Put ('-');
end if;
if Boolean'(True) then
Put (" last_event=");
Put_Time (stdout, Sig.Last_Event);
Put (" last_active=");
Put_Time (stdout, Sig.Last_Active);
end if;
Put (" val=");
if Sig_Type /= null then
Disp_Value (stdout, Sig.Value, Sig_Type);
else
Disp_Value (Sig.Value, Sig.Mode);
end if;
Put ("; drv=");
if Sig_Type /= null then
Disp_Value (stdout, Sig.Driving_Value, Sig_Type);
else
Disp_Value (Sig.Driving_Value, Sig.Mode);
end if;
if Sources then
if Sig.Nbr_Ports > 0 then
Put (';');
Put_I32 (stdout, Ghdl_I32 (Sig.Nbr_Ports));
Put (" ports");
end if;
if Sig.S.Mode_Sig in Mode_Signal_User then
if Sig.S.Resolv /= null then
Put (stdout, " res func ");
Put (stdout, To_Address(Sig.S.Resolv));
end if;
if Sig.S.Nbr_Drivers = 0 then
Put ("; no driver");
elsif Sig.S.Nbr_Drivers = 1 then
Put ("; trans=");
Disp_Transaction
(Sig.S.Drivers (0).First_Trans, Sig_Type, Sig.Mode);
else
for I in 0 .. Sig.S.Nbr_Drivers - 1 loop
New_Line;
Put (" ");
Disp_Transaction
(Sig.S.Drivers (I).First_Trans, Sig_Type, Sig.Mode);
end loop;
end if;
end if;
end if;
New_Line;
end Disp_Simple_Signal;
procedure Disp_Signal_Name (Stream : FILEs;
Ctxt : Rti_Context;
Sig : Ghdl_Rtin_Object_Acc) is
begin
case Sig.Common.Kind is
when Ghdl_Rtik_Signal
| Ghdl_Rtik_Port
| Ghdl_Rtik_Guard =>
Put (stdout, Ctxt);
Put (".");
Put (Stream, Sig.Name);
when Ghdl_Rtik_Attribute_Quiet =>
Put (stdout, Ctxt);
Put (".");
Put (Stream, " 'quiet");
when Ghdl_Rtik_Attribute_Stable =>
Put (stdout, Ctxt);
Put (".");
Put (Stream, " 'stable");
when Ghdl_Rtik_Attribute_Transaction =>
Put (stdout, Ctxt);
Put (".");
Put (Stream, " 'transaction");
when others =>
null;
end case;
end Disp_Signal_Name;
procedure Disp_Scalar_Signal (Val_Addr : Address;
Val_Name : Vstring;
Val_Type : Ghdl_Rti_Access;
Parent : Rti_Object)
is
begin
Disp_Signal_Name (stdout, Parent.Ctxt,
To_Ghdl_Rtin_Object_Acc (Parent.Obj));
Put (stdout, Val_Name);
Disp_Simple_Signal (To_Ghdl_Signal_Ptr (To_Addr_Acc (Val_Addr).all),
Val_Type, Options.Disp_Sources);
end Disp_Scalar_Signal;
procedure Disp_All_Signals is
begin
Foreach_Scalar_Signal (Disp_Scalar_Signal'access);
end Disp_All_Signals;
-- Option disp-sensitivity
procedure Disp_Scalar_Sensitivity (Val_Addr : Address;
Val_Name : Vstring;
Val_Type : Ghdl_Rti_Access;
Parent : Rti_Object)
is
pragma Unreferenced (Val_Type);
Sig : Ghdl_Signal_Ptr;
Action : Action_List_Acc;
begin
Sig := To_Ghdl_Signal_Ptr (To_Addr_Acc (Val_Addr).all);
if Sig.Flags.Seen then
return;
else
Sig.Flags.Seen := True;
end if;
Disp_Signal_Name (stdout, Parent.Ctxt,
To_Ghdl_Rtin_Object_Acc (Parent.Obj));
Put (stdout, Val_Name);
New_Line (stdout);
Action := Sig.Event_List;
while Action /= null loop
Put (stdout, " wakeup ");
Grt.Processes.Disp_Process_Name (stdout, Action.Proc);
New_Line (stdout);
Action := Action.Next;
end loop;
if Sig.S.Mode_Sig in Mode_Signal_User then
for I in 1 .. Sig.S.Nbr_Drivers loop
Put (stdout, " driven ");
Grt.Processes.Disp_Process_Name
(stdout, Sig.S.Drivers (I - 1).Proc);
New_Line (stdout);
end loop;
end if;
end Disp_Scalar_Sensitivity;
procedure Disp_All_Sensitivity is
begin
Foreach_Scalar_Signal (Disp_Scalar_Sensitivity'access);
end Disp_All_Sensitivity;
-- Option disp-signals-map
procedure Disp_Signals_Map_Scalar (Val_Addr : Address;
Val_Name : Vstring;
Val_Type : Ghdl_Rti_Access;
Parent : Rti_Object)
is
pragma Unreferenced (Val_Type);
function To_Ghdl_Signal_Ptr is new Ada.Unchecked_Conversion
(Source => Address, Target => Ghdl_Signal_Ptr);
S : Ghdl_Signal_Ptr;
begin
Disp_Signal_Name (stdout,
Parent.Ctxt, To_Ghdl_Rtin_Object_Acc (Parent.Obj));
Put (stdout, Val_Name);
Put (": ");
S := To_Ghdl_Signal_Ptr (To_Addr_Acc (Val_Addr).all);
Put (stdout, S.all'Address);
Put (" net: ");
Put_I32 (stdout, Ghdl_I32 (S.Net));
if S.Has_Active then
Put (" +A");
end if;
New_Line;
end Disp_Signals_Map_Scalar;
procedure Disp_Signals_Map is
begin
Foreach_Scalar_Signal (Disp_Signals_Map_Scalar'access);
end Disp_Signals_Map;
-- Option --disp-signals-table
procedure Disp_Mode_Signal (Mode : Mode_Signal_Type)
is
begin
case Mode is
when Mode_Signal =>
Put ("signal");
when Mode_Linkage =>
Put ("linkage");
when Mode_Buffer =>
Put ("buffer");
when Mode_Out =>
Put ("out");
when Mode_Inout =>
Put ("inout");
when Mode_In =>
Put ("in");
when Mode_Stable =>
Put ("stable");
when Mode_Quiet =>
Put ("quiet");
when Mode_Transaction =>
Put ("transaction");
when Mode_Delayed =>
Put ("delayed");
when Mode_Guard =>
Put ("guard");
when Mode_Conv_In =>
Put ("conv_in");
when Mode_Conv_Out =>
Put ("conv_out");
when Mode_End =>
Put ("end");
end case;
end Disp_Mode_Signal;
procedure Disp_Signals_Table
is
Sig : Ghdl_Signal_Ptr;
begin
for I in Sig_Table.First .. Sig_Table.Last loop
Sig := Sig_Table.Table (I);
Put_Sig_Index (I);
Put (": ");
Put (stdout, Sig.all'Address);
if Sig.Has_Active then
Put (" +A");
end if;
Put (" net: ");
Put_I32 (stdout, Ghdl_I32 (Sig.Net));
Put (" smode: ");
Disp_Mode_Signal (Sig.S.Mode_Sig);
Put (" #prt: ");
Put_I32 (stdout, Ghdl_I32 (Sig.Nbr_Ports));
if Sig.S.Mode_Sig in Mode_Signal_User then
Put (" #drv: ");
Put_I32 (stdout, Ghdl_I32 (Sig.S.Nbr_Drivers));
case Sig.Sig_Kind is
when Kind_Signal_No =>
Put (" ");
when Kind_Signal_Register =>
Put (" reg");
when Kind_Signal_Bus =>
Put (" bus");
end case;
if Sig.S.Effective /= null then
Put (" eff: ");
Put (stdout, Sig.S.Effective.all'Address);
end if;
if Sig.S.Resolv /= null then
Put (" resolved");
end if;
end if;
if Boolean'(False) then
Put (" link: ");
Put (stdout, Sig.Link.all'Address);
end if;
New_Line;
if Sig.Nbr_Ports /= 0 then
for J in 1 .. Sig.Nbr_Ports loop
Put (" ");
Put (stdout, Sig.Ports (J - 1).all'Address);
end loop;
New_Line;
end if;
end loop;
Grt.Stdio.fflush (stdout);
end Disp_Signals_Table;
procedure Disp_A_Signal (Sig : Ghdl_Signal_Ptr)
is
begin
Disp_Simple_Signal (Sig, null, True);
end Disp_A_Signal;
procedure Put_Signal_Name (Stream : FILEs; Sig : Ghdl_Signal_Ptr)
is
Found : Boolean := False;
Cur_Ctxt : Rti_Context;
Cur_Sig : Ghdl_Rtin_Object_Acc;
procedure Process_Scalar (Val_Addr : Address;
Val_Name : Vstring;
Val_Type : Ghdl_Rti_Access;
Param : Boolean)
is
pragma Unreferenced (Val_Type);
pragma Unreferenced (Param);
Sig1 : Ghdl_Signal_Ptr;
begin
-- Read the signal.
Sig1 := To_Ghdl_Signal_Ptr (To_Addr_Acc (Val_Addr).all);
if Sig1 = Sig and not Found then
Disp_Signal_Name (Stream, Cur_Ctxt, Cur_Sig);
Put (Stream, Val_Name);
Found := True;
end if;
end Process_Scalar;
procedure Foreach_Scalar is new Grt.Rtis_Utils.Foreach_Scalar
(Param_Type => Boolean, Process => Process_Scalar);
function Process_Block (Ctxt : Rti_Context;
Obj : Ghdl_Rti_Access)
return Traverse_Result
is
begin
case Obj.Kind is
when Ghdl_Rtik_Signal
| Ghdl_Rtik_Port
| Ghdl_Rtik_Guard
| Ghdl_Rtik_Attribute_Stable
| Ghdl_Rtik_Attribute_Quiet
| Ghdl_Rtik_Attribute_Transaction =>
Cur_Ctxt := Ctxt;
Cur_Sig := To_Ghdl_Rtin_Object_Acc (Obj);
Foreach_Scalar
(Ctxt, Cur_Sig.Obj_Type,
Loc_To_Addr (Cur_Sig.Common.Depth, Cur_Sig.Loc, Ctxt),
True, True);
if Found then
return Traverse_Stop;
end if;
when others =>
null;
end case;
return Traverse_Ok;
end Process_Block;
function Foreach_Block is new Grt.Rtis_Utils.Traverse_Blocks
(Process_Block);
Res_Status : Traverse_Result;
pragma Unreferenced (Res_Status);
begin
Res_Status := Foreach_Block (Get_Top_Context);
if not Found then
Put (Stream, "(unknown signal)");
end if;
end Put_Signal_Name;
end Grt.Disp_Signals;
|