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|
-- GHDL Run Time (GRT) - RTI dumper.
-- 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 Grt.Astdio; use Grt.Astdio;
with Grt.Astdio.Vhdl; use Grt.Astdio.Vhdl;
with Grt.Errors; use Grt.Errors;
with Grt.Hooks; use Grt.Hooks;
with Grt.Rtis_Utils; use Grt.Rtis_Utils;
with Grt.Signals;
package body Grt.Disp_Rti is
procedure Disp_Kind (Kind : Ghdl_Rtik);
procedure Disp_Name (Name : Ghdl_C_String) is
begin
if Name = null then
Put (stdout, "<anonymous>");
else
Put (stdout, Name);
end if;
end Disp_Name;
-- Disp value stored at ADDR and whose type is described by RTI.
procedure Disp_Enum_Value
(Stream : FILEs; Rti : Ghdl_Rti_Access; Val : Ghdl_Index_Type)
is
Enum_Rti : constant Ghdl_Rtin_Type_Enum_Acc :=
To_Ghdl_Rtin_Type_Enum_Acc (Rti);
begin
Put (Stream, Enum_Rti.Names (Val));
end Disp_Enum_Value;
procedure Peek_Value_And_Update (Rti : Ghdl_Rti_Access;
Val : out Ghdl_Value_Ptr;
Addr : in out Address;
Is_Sig : Boolean)
is
Sz : Ghdl_Index_Type;
begin
if Is_Sig then
-- ADDR is the address of the object.
-- The object contains a pointer to the signal.
-- The first field of the signal is a pointer to the value.
Val := Grt.Signals.To_Ghdl_Signal_Ptr
(To_Addr_Acc (Addr).all).Value_Ptr;
Sz := Address'Size / Storage_Unit;
else
Val := To_Ghdl_Value_Ptr (Addr);
case Rti.Kind is
when Ghdl_Rtik_Type_E8
| Ghdl_Rtik_Type_B1 =>
Sz := 1;
when Ghdl_Rtik_Type_I32
| Ghdl_Rtik_Type_E32
| Ghdl_Rtik_Type_P32 =>
Sz := 4;
when Ghdl_Rtik_Type_F64
| Ghdl_Rtik_Type_P64 =>
Sz := 8;
when others =>
Internal_Error ("disp_rti.peek_value_and_update");
end case;
end if;
Addr := Addr + Sz;
end Peek_Value_And_Update;
procedure Disp_Scalar_Value (Stream : FILEs;
Rti : Ghdl_Rti_Access;
Addr : in out Address;
Is_Sig : Boolean)
is
Vptr : Ghdl_Value_Ptr;
begin
Peek_Value_And_Update (Rti, Vptr, Addr, Is_Sig);
case Rti.Kind is
when Ghdl_Rtik_Type_I32 =>
Put_I32 (Stream, Vptr.I32);
when Ghdl_Rtik_Type_E8 =>
Disp_Enum_Value (Stream, Rti, Ghdl_Index_Type (Vptr.E8));
when Ghdl_Rtik_Type_E32 =>
Disp_Enum_Value (Stream, Rti, Ghdl_Index_Type (Vptr.E32));
when Ghdl_Rtik_Type_B1 =>
Disp_Enum_Value (Stream, Rti,
Ghdl_Index_Type (Ghdl_B1'Pos (Vptr.B1)));
when Ghdl_Rtik_Type_F64 =>
Put_F64 (Stream, Vptr.F64);
when Ghdl_Rtik_Type_P64 =>
Put_I64 (Stream, Vptr.I64);
Put (Stream, " ");
Put (Stream,
Get_Physical_Unit_Name
(To_Ghdl_Rtin_Type_Physical_Acc (Rti).Units (0)));
when Ghdl_Rtik_Type_P32 =>
Put_I32 (Stream, Vptr.I32);
Put (Stream, " ");
Put (Stream,
Get_Physical_Unit_Name
(To_Ghdl_Rtin_Type_Physical_Acc (Rti).Units (0)));
when others =>
Internal_Error ("disp_rti.disp_scalar_value");
end case;
end Disp_Scalar_Value;
procedure Disp_Array_As_String (Stream : FILEs;
El_Rti : Ghdl_Rti_Access;
Length : Ghdl_Index_Type;
Obj : in out Address;
Is_Sig : Boolean)
is
Enum_Rti : constant Ghdl_Rtin_Type_Enum_Acc :=
To_Ghdl_Rtin_Type_Enum_Acc (El_Rti);
Name : Ghdl_C_String;
In_String : Boolean;
Val : Ghdl_Value_Ptr;
begin
In_String := False;
for I in 1 .. Length loop
Peek_Value_And_Update (El_Rti, Val, Obj, Is_Sig);
case El_Rti.Kind is
when Ghdl_Rtik_Type_E8 =>
Name := Enum_Rti.Names (Ghdl_Index_Type (Val.E8));
when Ghdl_Rtik_Type_B1 =>
Name := Enum_Rti.Names (Ghdl_B1'Pos (Val.B1));
when others =>
Internal_Error ("disp_rti.disp_array_as_string");
end case;
if Name (1) = ''' then
-- A character.
if not In_String then
if I /= 1 then
Put (Stream, " & ");
end if;
Put (Stream, '"');
In_String := True;
end if;
Put (Stream, Name (2));
else
if In_String then
Put (Stream, '"');
In_String := False;
end if;
if I /= 1 then
Put (Stream, " & ");
end if;
Put (Stream, Name);
end if;
end loop;
if In_String then
Put (Stream, '"');
end if;
end Disp_Array_As_String;
-- function Get_Scalar_Type_Kind (Rti : Ghdl_Rti_Access) return Ghdl_Rtik
-- is
-- Ndef : Ghdl_Rti_Access;
-- begin
-- if Rti.Kind = Ghdl_Rtik_Subtype_Scalar then
-- Ndef := To_Ghdl_Rtin_Subtype_Scalar_Acc (Rti).Basetype;
-- else
-- Ndef := Rti;
-- end if;
-- case Ndef.Kind is
-- when Ghdl_Rtik_Type_I32 =>
-- return Ndef.Kind;
-- when others =>
-- return Ghdl_Rtik_Error;
-- end case;
-- end Get_Scalar_Type_Kind;
procedure Disp_Array_Value_1 (Stream : FILEs;
Arr_Rti : Ghdl_Rtin_Type_Array_Acc;
Ctxt : Rti_Context;
Index : Ghdl_Index_Type;
Obj : in out Address;
Bounds : in out Address;
Is_Sig : Boolean)
is
El_Rti : constant Ghdl_Rti_Access := Arr_Rti.Element;
Idx_Rti : constant Ghdl_Rti_Access :=
Get_Base_Type (Arr_Rti.Indexes (Index));
Last_Idx : constant Ghdl_Index_Type := Arr_Rti.Nbr_Dim - 1;
Rng : Ghdl_Range_Ptr;
Length : Ghdl_Index_Type;
Bounds2 : Address;
begin
Extract_Range (Bounds, Idx_Rti, Rng);
Length := Range_To_Length (Rng, Idx_Rti);
if Index = Last_Idx
and then (El_Rti.Kind = Ghdl_Rtik_Type_B1
or else El_Rti.Kind = Ghdl_Rtik_Type_E8)
then
-- Disp as string.
Disp_Array_As_String (Stream, El_Rti, Length, Obj, Is_Sig);
return;
end if;
Put (Stream, "(");
if Length = 0 then
Put (Stream, "<>");
-- FIXME: need to update bounds.
else
for I in 1 .. Length loop
if I /= 1 then
Put (Stream, ", ");
end if;
if Index = Last_Idx then
Bounds2 := Array_Layout_To_Element (Bounds, El_Rti);
Disp_Value (Stream, El_Rti, Ctxt, Obj, Bounds2, Is_Sig);
else
Bounds2 := Bounds;
Disp_Array_Value_1
(Stream, Arr_Rti, Ctxt, Index + 1, Obj, Bounds2, Is_Sig);
end if;
end loop;
Bounds := Bounds2;
end if;
Put (Stream, ")");
end Disp_Array_Value_1;
procedure Disp_Record_Value (Stream : FILEs;
Rti : Ghdl_Rtin_Type_Record_Acc;
Ctxt : Rti_Context;
Obj : Address;
Obj_Layout : Address;
Is_Sig : Boolean)
is
El : Ghdl_Rtin_Element_Acc;
El_Addr : Address;
El_Bounds : Address;
begin
Put (Stream, "(");
for I in 1 .. Rti.Nbrel loop
El := To_Ghdl_Rtin_Element_Acc (Rti.Elements (I - 1));
if I /= 1 then
Put (", ");
end if;
Put (Stream, El.Name);
Put (" => ");
Record_To_Element
(Obj, El, Is_Sig, Obj_Layout, El_Addr, El_Bounds);
Disp_Value (Stream, El.Eltype, Ctxt, El_Addr, El_Bounds, Is_Sig);
end loop;
Put (")");
-- FIXME: update ADDR.
end Disp_Record_Value;
procedure Disp_Value (Stream : FILEs;
Rti : Ghdl_Rti_Access;
Ctxt : Rti_Context;
Obj : in out Address;
Bounds : in out Address;
Is_Sig : Boolean)
is
begin
case Rti.Kind is
when Ghdl_Rtik_Subtype_Scalar =>
Disp_Scalar_Value
(Stream, To_Ghdl_Rtin_Subtype_Scalar_Acc (Rti).Basetype,
Obj, Is_Sig);
when Ghdl_Rtik_Type_I32
| Ghdl_Rtik_Type_E8
| Ghdl_Rtik_Type_E32
| Ghdl_Rtik_Type_B1 =>
Disp_Scalar_Value (Stream, Rti, Obj, Is_Sig);
when Ghdl_Rtik_Type_Array =>
Disp_Array_Value_1
(Stream, To_Ghdl_Rtin_Type_Array_Acc (Rti), Ctxt, 0,
Obj, Bounds, Is_Sig);
when Ghdl_Rtik_Subtype_Unbounded_Array =>
declare
St : constant Ghdl_Rtin_Subtype_Composite_Acc :=
To_Ghdl_Rtin_Subtype_Composite_Acc (Rti);
Bt : constant Ghdl_Rtin_Type_Array_Acc :=
To_Ghdl_Rtin_Type_Array_Acc (St.Basetype);
begin
Disp_Array_Value_1 (Stream, Bt, Ctxt, 0, Obj, Bounds, Is_Sig);
end;
when Ghdl_Rtik_Subtype_Array =>
declare
St : constant Ghdl_Rtin_Subtype_Composite_Acc :=
To_Ghdl_Rtin_Subtype_Composite_Acc (Rti);
Bt : constant Ghdl_Rtin_Type_Array_Acc :=
To_Ghdl_Rtin_Type_Array_Acc (St.Basetype);
Layout : Address;
Bounds : Address;
begin
Layout := Loc_To_Addr (St.Common.Depth, St.Layout, Ctxt);
Bounds := Array_Layout_To_Bounds (Layout);
Disp_Array_Value_1 (Stream, Bt, Ctxt, 0, Obj, Bounds, Is_Sig);
end;
when Ghdl_Rtik_Type_File =>
declare
Vptr : Ghdl_Value_Ptr;
begin
Vptr := To_Ghdl_Value_Ptr (Obj);
Put (Stream, "File#");
Put_I32 (Stream, Vptr.I32);
-- FIXME: update OBJ (not very useful since never in a
-- composite type).
end;
when Ghdl_Rtik_Type_Record =>
declare
Bt : constant Ghdl_Rtin_Type_Record_Acc :=
To_Ghdl_Rtin_Type_Record_Acc (Rti);
Rec_Layout : Address;
begin
if Rti_Complex_Type (Rti) then
Rec_Layout := Loc_To_Addr (Bt.Common.Depth, Bt.Layout, Ctxt);
else
Rec_Layout := Bounds;
end if;
Disp_Record_Value (Stream, Bt, Ctxt, Obj, Rec_Layout, Is_Sig);
end;
when Ghdl_Rtik_Type_Unbounded_Record =>
declare
Bt : constant Ghdl_Rtin_Type_Record_Acc :=
To_Ghdl_Rtin_Type_Record_Acc (Rti);
begin
Disp_Record_Value (Stream, Bt, Ctxt, Obj, Bounds, Is_Sig);
end;
when Ghdl_Rtik_Subtype_Unbounded_Record =>
declare
St : constant Ghdl_Rtin_Subtype_Composite_Acc :=
To_Ghdl_Rtin_Subtype_Composite_Acc (Rti);
Bt : constant Ghdl_Rtin_Type_Record_Acc :=
To_Ghdl_Rtin_Type_Record_Acc (St.Basetype);
begin
Disp_Record_Value (Stream, Bt, Ctxt, Obj, Bounds, Is_Sig);
end;
when Ghdl_Rtik_Subtype_Record =>
declare
St : constant Ghdl_Rtin_Subtype_Composite_Acc :=
To_Ghdl_Rtin_Subtype_Composite_Acc (Rti);
Bt : constant Ghdl_Rtin_Type_Record_Acc :=
To_Ghdl_Rtin_Type_Record_Acc (St.Basetype);
Layout : Address;
begin
Layout := Loc_To_Addr (St.Common.Depth, St.Layout, Ctxt);
Disp_Record_Value (Stream, Bt, Ctxt, Obj, Layout, Is_Sig);
end;
when Ghdl_Rtik_Type_Protected =>
Put (Stream, "Unhandled protected type");
when others =>
Put (Stream, "Unknown Rti Kind : ");
Disp_Kind(Rti.Kind);
end case;
-- Put_Line(":");
end Disp_Value;
procedure Disp_Kind (Kind : Ghdl_Rtik) is
begin
case Kind is
when Ghdl_Rtik_Top =>
Put ("ghdl_rtik_top");
when Ghdl_Rtik_Package =>
Put ("ghdl_rtik_package");
when Ghdl_Rtik_Package_Body =>
Put ("ghdl_rtik_package_body");
when Ghdl_Rtik_Entity =>
Put ("ghdl_rtik_entity");
when Ghdl_Rtik_Architecture =>
Put ("ghdl_rtik_architecture");
when Ghdl_Rtik_Process =>
Put ("ghdl_rtik_process");
when Ghdl_Rtik_Component =>
Put ("ghdl_rtik_component");
when Ghdl_Rtik_Attribute =>
Put ("ghdl_rtik_attribute");
when Ghdl_Rtik_Attribute_Quiet =>
Put ("ghdl_rtik_attribute_quiet");
when Ghdl_Rtik_Attribute_Stable =>
Put ("ghdl_rtik_attribute_stable");
when Ghdl_Rtik_Attribute_Transaction =>
Put ("ghdl_rtik_attribute_transaction");
when Ghdl_Rtik_Constant =>
Put ("ghdl_rtik_constant");
when Ghdl_Rtik_Iterator =>
Put ("ghdl_rtik_iterator");
when Ghdl_Rtik_Signal =>
Put ("ghdl_rtik_signal");
when Ghdl_Rtik_Variable =>
Put ("ghdl_rtik_variable");
when Ghdl_Rtik_Guard =>
Put ("ghdl_rtik_guard");
when Ghdl_Rtik_File =>
Put ("ghdl_rtik_file");
when Ghdl_Rtik_Port =>
Put ("ghdl_rtik_port");
when Ghdl_Rtik_Generic =>
Put ("ghdl_rtik_generic");
when Ghdl_Rtik_Alias =>
Put ("ghdl_rtik_alias");
when Ghdl_Rtik_Instance =>
Put ("ghdl_rtik_instance");
when Ghdl_Rtik_Block =>
Put ("ghdl_rtik_block");
when Ghdl_Rtik_If_Generate =>
Put ("ghdl_rtik_if_generate");
when Ghdl_Rtik_Case_Generate =>
Put ("ghdl_rtik_case_generate");
when Ghdl_Rtik_For_Generate =>
Put ("ghdl_rtik_for_generate");
when Ghdl_Rtik_Generate_Body =>
Put ("ghdl_rtik_generate_body");
when Ghdl_Rtik_Type_B1 =>
Put ("ghdl_rtik_type_b1");
when Ghdl_Rtik_Type_E8 =>
Put ("ghdl_rtik_type_e8");
when Ghdl_Rtik_Type_E32 =>
Put ("ghdl_rtik_type_e32");
when Ghdl_Rtik_Type_P64 =>
Put ("ghdl_rtik_type_p64");
when Ghdl_Rtik_Type_I32 =>
Put ("ghdl_rtik_type_i32");
when Ghdl_Rtik_Type_Array =>
Put ("ghdl_rtik_type_array");
when Ghdl_Rtik_Subtype_Array =>
Put ("ghdl_rtik_subtype_array");
when Ghdl_Rtik_Subtype_Unbounded_Array =>
Put ("ghdl_rtik_subtype_unbounded_array");
when Ghdl_Rtik_Type_Record =>
Put ("ghdl_rtik_type_record");
when Ghdl_Rtik_Type_Unbounded_Record =>
Put ("ghdl_rtik_type_unbounded_record");
when Ghdl_Rtik_Subtype_Unbounded_Record =>
Put ("ghdl_rtik_subtype_unbounded_record");
when Ghdl_Rtik_Subtype_Record =>
Put ("ghdl_rtik_subtype_record");
when Ghdl_Rtik_Type_Access =>
Put ("ghdl_rtik_type_access");
when Ghdl_Rtik_Type_File =>
Put ("ghdl_rtik_type_file");
when Ghdl_Rtik_Type_Protected =>
Put ("ghdl_rtik_type_protected");
when Ghdl_Rtik_Subtype_Scalar =>
Put ("ghdl_rtik_subtype_scalar");
when Ghdl_Rtik_Element =>
Put ("ghdl_rtik_element");
when Ghdl_Rtik_Unit64 =>
Put ("ghdl_rtik_unit64");
when Ghdl_Rtik_Unitptr =>
Put ("ghdl_rtik_unitptr");
when Ghdl_Rtik_Psl_Assert =>
Put ("ghdl_rtik_psl_assert");
when Ghdl_Rtik_Psl_Assume =>
Put ("ghdl_rtik_psl_assume");
when Ghdl_Rtik_Psl_Cover =>
Put ("ghdl_rtik_psl_cover");
when Ghdl_Rtik_Psl_Endpoint =>
Put ("ghdl_rtik_psl_endpoint");
when others =>
-- Should never happen, except when not synchronized.
Put ("ghdl_rtik_#");
Put_I32 (stdout, Ghdl_Rtik'Pos (Kind));
end case;
end Disp_Kind;
procedure Disp_Depth (Depth : Ghdl_Rti_Depth) is
begin
Put (", D=");
Put_I32 (stdout, Ghdl_I32 (Depth));
end Disp_Depth;
procedure Disp_Indent (Indent : Natural) is
begin
for I in 1 .. Indent loop
Put (' ');
end loop;
end Disp_Indent;
-- Disp a subtype_indication.
-- OBJ may be necessary when the subtype is an unconstrained array type,
-- whose bounds are stored with the object.
procedure Disp_Subtype_Indication
(Def : Ghdl_Rti_Access; Ctxt : Rti_Context; Obj : Address);
procedure Disp_Range
(Stream : FILEs; Def : Ghdl_Rti_Access; Rng : Ghdl_Range_Ptr) is
begin
case Def.Kind is
when Ghdl_Rtik_Type_I32
| Ghdl_Rtik_Type_P32 =>
Put_I32 (Stream, Rng.I32.Left);
Put_Dir (Stream, Rng.I32.Dir);
Put_I32 (Stream, Rng.I32.Right);
when Ghdl_Rtik_Type_F64 =>
Put_F64 (Stream, Rng.F64.Left);
Put_Dir (Stream, Rng.F64.Dir);
Put_F64 (Stream, Rng.F64.Right);
when Ghdl_Rtik_Type_P64 =>
Put_I64 (Stream, Rng.P64.Left);
Put_Dir (Stream, Rng.P64.Dir);
Put_I64 (Stream, Rng.P64.Right);
when Ghdl_Rtik_Type_B1 =>
declare
Enum : constant Ghdl_Rtin_Type_Enum_Acc :=
To_Ghdl_Rtin_Type_Enum_Acc (Def);
begin
Disp_Name (Enum.Names (Ghdl_B1'Pos (Rng.B1.Left)));
Put_Dir (Stream, Rng.B1.Dir);
Disp_Name (Enum.Names (Ghdl_B1'Pos (Rng.B1.Right)));
end;
when Ghdl_Rtik_Type_E8 =>
declare
Enum : constant Ghdl_Rtin_Type_Enum_Acc :=
To_Ghdl_Rtin_Type_Enum_Acc (Def);
begin
Disp_Name (Enum.Names (Ghdl_E8'Pos (Rng.E8.Left)));
Put_Dir (Stream, Rng.E8.Dir);
Disp_Name (Enum.Names (Ghdl_E8'Pos (Rng.E8.Right)));
end;
when others =>
Put ("?Scal");
end case;
end Disp_Range;
procedure Disp_Scalar_Type_Name (Def : Ghdl_Rti_Access) is
begin
case Def.Kind is
when Ghdl_Rtik_Subtype_Scalar =>
declare
Rti : Ghdl_Rtin_Subtype_Scalar_Acc;
begin
Rti := To_Ghdl_Rtin_Subtype_Scalar_Acc (Def);
if Rti.Name /= null then
Disp_Name (Rti.Name);
else
Disp_Scalar_Type_Name (Rti.Basetype);
end if;
end;
when Ghdl_Rtik_Type_B1
| Ghdl_Rtik_Type_E8
| Ghdl_Rtik_Type_E32 =>
Disp_Name (To_Ghdl_Rtin_Type_Enum_Acc (Def).Name);
when Ghdl_Rtik_Type_I32
| Ghdl_Rtik_Type_I64 =>
Disp_Name (To_Ghdl_Rtin_Type_Scalar_Acc (Def).Name);
when others =>
Put ("#disp_scalar_type_name#");
end case;
end Disp_Scalar_Type_Name;
procedure Disp_Type_Composite_Bounds
(Def : Ghdl_Rti_Access; Bounds : Address);
procedure Disp_Type_Array_Bounds (Def : Ghdl_Rtin_Type_Array_Acc;
Bounds : Address)
is
Rng : Ghdl_Range_Ptr;
Idx_Base : Ghdl_Rti_Access;
Bounds1 : Address;
El_Type : Ghdl_Rti_Access;
begin
Bounds1 := Bounds;
Put (" (");
for I in 0 .. Def.Nbr_Dim - 1 loop
if I /= 0 then
Put (", ");
end if;
if Boolean'(False) then
Disp_Scalar_Type_Name (Def.Indexes (I));
Put (" range ");
end if;
Idx_Base := Get_Base_Type (Def.Indexes (I));
Extract_Range (Bounds1, Idx_Base, Rng);
Disp_Range (stdout, Idx_Base, Rng);
end loop;
Put (")");
El_Type := Def.Element;
if Is_Unbounded (El_Type) then
Disp_Type_Composite_Bounds (El_Type, Bounds1);
end if;
end Disp_Type_Array_Bounds;
procedure Disp_Type_Record_Bounds (Def : Ghdl_Rtin_Type_Record_Acc;
Layout : Address)
is
El : Ghdl_Rtin_Element_Acc;
El_Layout : Address;
El_Type : Ghdl_Rti_Access;
First : Boolean;
begin
Put (" (");
First := True;
for I in 1 .. Def.Nbrel loop
El := To_Ghdl_Rtin_Element_Acc (Def.Elements (I - 1));
El_Type := El.Eltype;
if Is_Unbounded (El_Type) then
if First then
First := False;
else
Put (", ");
end if;
Put (El.Name);
El_Layout := Layout + El.Layout_Off;
Disp_Type_Composite_Bounds (El_Type, El_Layout);
end if;
end loop;
Put (")");
end Disp_Type_Record_Bounds;
procedure Disp_Type_Composite_Bounds
(Def : Ghdl_Rti_Access; Bounds : Address)
is
El_Type : constant Ghdl_Rti_Access := Get_Base_Type (Def);
begin
case El_Type.Kind is
when Ghdl_Rtik_Type_Array =>
Disp_Type_Array_Bounds
(To_Ghdl_Rtin_Type_Array_Acc (El_Type),
Array_Layout_To_Bounds (Bounds));
when Ghdl_Rtik_Type_Unbounded_Record =>
Disp_Type_Record_Bounds
(To_Ghdl_Rtin_Type_Record_Acc (El_Type), Bounds);
when others =>
raise Program_Error;
end case;
end Disp_Type_Composite_Bounds;
procedure Disp_Type_Array_Name (Def : Ghdl_Rtin_Type_Array_Acc;
Bounds_Ptr : Address)
is
Bounds : Address;
begin
Disp_Name (Def.Name);
if Bounds_Ptr = Null_Address then
return;
end if;
Bounds := Bounds_Ptr;
Disp_Type_Array_Bounds (Def, Bounds);
end Disp_Type_Array_Name;
procedure Disp_Type_Record_Name (Def : Ghdl_Rtin_Type_Record_Acc;
Layout_Ptr : Address)
is
Layout : Address;
begin
Disp_Name (Def.Name);
if Layout_Ptr = Null_Address then
return;
end if;
Layout := Layout_Ptr;
Disp_Type_Record_Bounds (Def, Layout);
end Disp_Type_Record_Name;
procedure Disp_Subtype_Scalar_Range
(Stream : FILEs; Def : Ghdl_Rtin_Subtype_Scalar_Acc; Ctxt : Rti_Context)
is
Range_Addr : Address;
Rng : Ghdl_Range_Ptr;
begin
Range_Addr := Loc_To_Addr (Def.Common.Depth,
Def.Range_Loc, Ctxt);
Rng := To_Ghdl_Range_Ptr (Range_Addr);
Disp_Range (Stream, Def.Basetype, Rng);
end Disp_Subtype_Scalar_Range;
procedure Disp_Subtype_Indication
(Def : Ghdl_Rti_Access; Ctxt : Rti_Context; Obj : Address)
is
begin
case Def.Kind is
when Ghdl_Rtik_Subtype_Scalar =>
declare
Rti : Ghdl_Rtin_Subtype_Scalar_Acc;
begin
Rti := To_Ghdl_Rtin_Subtype_Scalar_Acc (Def);
if Rti.Name /= null then
Disp_Name (Rti.Name);
else
Disp_Subtype_Indication
(Rti.Basetype, Null_Context, Null_Address);
Put (" range ");
Disp_Subtype_Scalar_Range (stdout, Rti, Ctxt);
end if;
end;
--Disp_Scalar_Subtype_Name (To_Ghdl_Rtin_Scalsubtype_Acc (Def),
-- Base);
when Ghdl_Rtik_Type_B1
| Ghdl_Rtik_Type_E8
| Ghdl_Rtik_Type_E32 =>
Disp_Name (To_Ghdl_Rtin_Type_Enum_Acc (Def).Name);
when Ghdl_Rtik_Type_I32
| Ghdl_Rtik_Type_I64 =>
Disp_Name (To_Ghdl_Rtin_Type_Scalar_Acc (Def).Name);
when Ghdl_Rtik_Type_File
| Ghdl_Rtik_Type_Access =>
Disp_Name (To_Ghdl_Rtin_Type_Fileacc_Acc (Def).Name);
when Ghdl_Rtik_Type_Record
| Ghdl_Rtik_Type_Unbounded_Record =>
Disp_Name (To_Ghdl_Rtin_Type_Record_Acc (Def).Name);
when Ghdl_Rtik_Subtype_Record =>
declare
Sdef : constant Ghdl_Rtin_Subtype_Composite_Acc :=
To_Ghdl_Rtin_Subtype_Composite_Acc (Def);
begin
if Sdef.Name /= null then
Disp_Name (Sdef.Name);
else
Disp_Type_Record_Name
(To_Ghdl_Rtin_Type_Record_Acc (Sdef.Basetype),
Loc_To_Addr (Sdef.Common.Depth, Sdef.Layout, Ctxt));
end if;
end;
when Ghdl_Rtik_Type_Array =>
declare
Bounds : Address;
begin
if Obj = Null_Address then
Bounds := Null_Address;
else
Bounds := To_Ghdl_Uc_Array_Acc (Obj).Bounds;
end if;
Disp_Type_Array_Name (To_Ghdl_Rtin_Type_Array_Acc (Def),
Bounds);
end;
when Ghdl_Rtik_Subtype_Array =>
declare
Sdef : constant Ghdl_Rtin_Subtype_Composite_Acc :=
To_Ghdl_Rtin_Subtype_Composite_Acc (Def);
Layout : Address;
begin
if Sdef.Name /= null then
Disp_Name (Sdef.Name);
else
Layout := Loc_To_Addr (Sdef.Common.Depth, Sdef.Layout, Ctxt);
Disp_Type_Array_Name
(To_Ghdl_Rtin_Type_Array_Acc (Sdef.Basetype),
Array_Layout_To_Bounds (Layout));
end if;
end;
when Ghdl_Rtik_Subtype_Unbounded_Array =>
declare
Sdef : constant Ghdl_Rtin_Subtype_Composite_Acc :=
To_Ghdl_Rtin_Subtype_Composite_Acc (Def);
begin
if Sdef.Name /= null then
Disp_Name (Sdef.Name);
else
Put ("?sub-arr?");
end if;
end;
when Ghdl_Rtik_Type_Protected =>
Disp_Name (To_Ghdl_Rtin_Type_Scalar_Acc (Def).Name);
when others =>
Disp_Kind (Def.Kind);
Put (' ');
end case;
end Disp_Subtype_Indication;
procedure Disp_Linecol (Linecol : Ghdl_Index_Type) is
begin
Put ("sloc=");
Put_U32 (stdout, Get_Linecol_Line (Linecol));
Put (":");
Put_U32 (stdout, Get_Linecol_Col (Linecol));
end Disp_Linecol;
procedure Disp_Rti (Rti : Ghdl_Rti_Access;
Ctxt : Rti_Context;
Indent : Natural);
procedure Disp_Rti_Arr (Nbr : Ghdl_Index_Type;
Arr : Ghdl_Rti_Arr_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
begin
for I in 1 .. Nbr loop
Disp_Rti (Arr (I - 1), Ctxt, Indent);
end loop;
end Disp_Rti_Arr;
procedure Disp_Block (Blk : Ghdl_Rtin_Block_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
Nctxt : Rti_Context;
begin
Disp_Indent (Indent);
Disp_Kind (Blk.Common.Kind);
Disp_Depth (Blk.Common.Depth);
Put (", ");
Disp_Linecol (Blk.Linecol);
Put (": ");
Disp_Name (Blk.Name);
New_Line;
case Blk.Common.Kind is
when Ghdl_Rtik_Package
| Ghdl_Rtik_Package_Body
| Ghdl_Rtik_Entity
| Ghdl_Rtik_Architecture =>
Disp_Indent (Indent);
Put (" filename: ");
Disp_Name (To_Ghdl_Rtin_Block_Filename_Acc
(To_Ghdl_Rti_Access (Blk)).Filename);
New_Line;
when others =>
null;
end case;
if Blk.Parent /= null then
case Blk.Common.Kind is
when Ghdl_Rtik_Architecture =>
-- Disp entity.
Disp_Rti (Blk.Parent, Ctxt, Indent + 1);
when others =>
null;
end case;
end if;
case Blk.Common.Kind is
when Ghdl_Rtik_Package
| Ghdl_Rtik_Package_Body
| Ghdl_Rtik_Entity
| Ghdl_Rtik_Architecture
| Ghdl_Rtik_Block
| Ghdl_Rtik_Process =>
Nctxt := (Base => Ctxt.Base + Blk.Loc,
Block => To_Ghdl_Rti_Access (Blk));
Disp_Rti_Arr (Blk.Nbr_Child, Blk.Children,
Nctxt, Indent + 1);
when Ghdl_Rtik_Generate_Body =>
Disp_Rti_Arr (Blk.Nbr_Child, Blk.Children,
Ctxt, Indent + 1);
when Ghdl_Rtik_If_Generate
| Ghdl_Rtik_Case_Generate =>
Nctxt := Get_If_Case_Generate_Child
(Ctxt, To_Ghdl_Rti_Access (Blk));
if Nctxt /= Null_Context then
-- There might be no blocks.
Disp_Block
(To_Ghdl_Rtin_Block_Acc (Nctxt.Block), Nctxt, Indent + 1);
end if;
when others =>
Internal_Error ("disp_block");
end case;
end Disp_Block;
procedure Disp_For_Generate (Gen : Ghdl_Rtin_Generate_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
Nctxt : Rti_Context;
Length : Ghdl_Index_Type;
begin
Disp_Indent (Indent);
Disp_Kind (Gen.Common.Kind);
Disp_Depth (Gen.Common.Depth);
Put (", ");
Disp_Linecol (Gen.Linecol);
Put (": ");
Disp_Name (Gen.Name);
New_Line;
Nctxt := (Base => To_Addr_Acc (Ctxt.Base + Gen.Loc).all,
Block => Gen.Child);
Length := Get_For_Generate_Length (Gen, Ctxt);
for I in 1 .. Length loop
Disp_Block (To_Ghdl_Rtin_Block_Acc (Gen.Child),
Nctxt, Indent + 1);
Nctxt.Base := Nctxt.Base + Gen.Size;
end loop;
end Disp_For_Generate;
procedure Disp_Obj_Header (Obj : Ghdl_Rtin_Object_Acc; Indent : Natural) is
begin
Disp_Indent (Indent);
Disp_Kind (Obj.Common.Kind);
Disp_Depth (Obj.Common.Depth);
Put (", ");
Disp_Linecol (Obj.Linecol);
Put ("; ");
Disp_Name (Obj.Name);
Put (": ");
end Disp_Obj_Header;
procedure Disp_Object (Obj : Ghdl_Rtin_Object_Acc;
Is_Sig : Boolean;
Ctxt : Rti_Context;
Indent : Natural)
is
Obj_Addr, Base, Bounds : Address;
Obj_Type : Ghdl_Rti_Access;
begin
Disp_Obj_Header (Obj, Indent);
Obj_Addr := Loc_To_Addr (Obj.Common.Depth, Obj.Loc, Ctxt);
Obj_Type := Obj.Obj_Type;
Disp_Subtype_Indication (Obj_Type, Ctxt, Obj_Addr);
Put (" := ");
Object_To_Base_Bounds (Obj_Type, Obj_Addr, Base, Bounds);
Disp_Value (stdout, Obj_Type, Ctxt, Base, Bounds, Is_Sig);
New_Line;
end Disp_Object;
procedure Disp_Psl_Directive (Obj : Ghdl_Rtin_Object_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
Addr : Address;
begin
Disp_Obj_Header (Obj, Indent);
Put ("count = ");
Addr := Loc_To_Addr (Obj.Common.Depth, Obj.Loc, Ctxt);
Put_U32 (stdout, Ghdl_U32 (To_Ghdl_Index_Ptr (Addr).all));
New_Line;
end Disp_Psl_Directive;
procedure Disp_Psl_Endpoint_Directive (Obj : Ghdl_Rtin_Object_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
Addr : Address;
C : Character;
begin
Disp_Obj_Header (Obj, Indent);
Put ("endpoint = ");
Addr := Loc_To_Addr (Obj.Common.Depth, Obj.Loc, Ctxt);
if To_Ghdl_Value_Ptr (Addr).B1 then
C := 'T';
else
C := 'F';
end if;
Put (stdout, C);
New_Line;
end Disp_Psl_Endpoint_Directive;
procedure Disp_Attribute (Obj : Ghdl_Rtin_Object_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
begin
Disp_Indent (Indent);
Disp_Kind (Obj.Common.Kind);
Disp_Depth (Obj.Common.Depth);
Put ("; ");
Disp_Name (Obj.Name);
Put (": ");
Disp_Subtype_Indication (Obj.Obj_Type, Ctxt, Null_Address);
New_Line;
end Disp_Attribute;
procedure Disp_Component (Comp : Ghdl_Rtin_Component_Acc;
Indent : Natural)
is
begin
Disp_Indent (Indent);
Disp_Kind (Comp.Common.Kind);
Disp_Depth (Comp.Common.Depth);
Put (": ");
Disp_Name (Comp.Name);
New_Line;
--Disp_Rti_Arr (Comp.Nbr_Child, Comp.Children, Base, Ident + 1);
end Disp_Component;
procedure Disp_Instance (Inst : Ghdl_Rtin_Instance_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
Inst_Addr : Address;
Inst_Base : Address;
Inst_Rti : Ghdl_Rti_Access;
Nindent : Natural;
Nctxt : Rti_Context;
begin
Disp_Indent (Indent);
Disp_Kind (Inst.Common.Kind);
Put (", ");
Disp_Linecol (Inst.Linecol);
Put (": ");
Disp_Name (Inst.Name);
New_Line;
Inst_Addr := Ctxt.Base + Inst.Loc;
-- Read sub instance.
Inst_Base := To_Addr_Acc (Inst_Addr).all;
Nindent := Indent + 1;
case Inst.Instance.Kind is
when Ghdl_Rtik_Component =>
declare
Comp : Ghdl_Rtin_Component_Acc;
begin
Comp := To_Ghdl_Rtin_Component_Acc (Inst.Instance);
Disp_Indent (Nindent);
Disp_Kind (Comp.Common.Kind);
Put (": ");
Disp_Name (Comp.Name);
New_Line;
-- Disp components generics and ports.
-- FIXME: the data to disp are at COMP_BASE.
Nctxt := (Base => Inst_Addr,
Block => Inst.Instance);
Nindent := Nindent + 1;
Disp_Rti_Arr (Comp.Nbr_Child, Comp.Children, Nctxt, Nindent);
Nindent := Nindent + 1;
end;
when Ghdl_Rtik_Entity =>
null;
when others =>
null;
end case;
-- Read instance RTI.
if Inst_Base /= Null_Address then
Inst_Rti := To_Ghdl_Rti_Acc_Acc (Inst_Base).all;
Nctxt := (Base => Inst_Base,
Block => Inst_Rti);
Disp_Block (To_Ghdl_Rtin_Block_Acc (Inst_Rti),
Nctxt, Nindent);
end if;
end Disp_Instance;
procedure Disp_Type_Enum_Decl (Enum : Ghdl_Rtin_Type_Enum_Acc;
Indent : Natural)
is
begin
Disp_Indent (Indent);
Disp_Kind (Enum.Common.Kind);
Put (": ");
Disp_Name (Enum.Name);
Put (" is (");
Disp_Name (Enum.Names (0));
for I in 1 .. Enum.Nbr - 1 loop
Put (", ");
Disp_Name (Enum.Names (I));
end loop;
Put (")");
New_Line;
end Disp_Type_Enum_Decl;
procedure Disp_Subtype_Scalar_Decl (Def : Ghdl_Rtin_Subtype_Scalar_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
Bt : Ghdl_Rti_Access;
begin
Disp_Indent (Indent);
Disp_Kind (Def.Common.Kind);
Disp_Depth (Def.Common.Depth);
Put (": ");
Disp_Name (Def.Name);
Put (" is ");
Bt := Def.Basetype;
case Bt.Kind is
when Ghdl_Rtik_Type_I32
| Ghdl_Rtik_Type_F64
| Ghdl_Rtik_Type_E8
| Ghdl_Rtik_Type_E32 =>
declare
Bdef : Ghdl_Rtin_Type_Scalar_Acc;
begin
Bdef := To_Ghdl_Rtin_Type_Scalar_Acc (Bt);
if Bdef.Name /= Def.Name then
Disp_Name (Bdef.Name);
Put (" range ");
end if;
-- This is the type definition.
Disp_Subtype_Scalar_Range (stdout, Def, Ctxt);
end;
when Ghdl_Rtik_Type_P64
| Ghdl_Rtik_Type_P32 =>
declare
Bdef : Ghdl_Rtin_Type_Physical_Acc;
Unit : Ghdl_Rti_Access;
begin
Bdef := To_Ghdl_Rtin_Type_Physical_Acc (Bt);
if Bdef.Name /= Def.Name then
Disp_Name (Bdef.Name);
Put (" range ");
end if;
-- This is the type definition.
Disp_Subtype_Scalar_Range (stdout, Def, Ctxt);
if Bdef.Name = Def.Name then
for I in 0 .. Bdef.Nbr - 1 loop
Unit := Bdef.Units (I);
New_Line;
Disp_Indent (Indent + 1);
Disp_Kind (Unit.Kind);
Put (": ");
Disp_Name (Get_Physical_Unit_Name (Unit));
Put (" = ");
case Unit.Kind is
when Ghdl_Rtik_Unit64 =>
Put_I64 (stdout,
To_Ghdl_Rtin_Unit64_Acc (Unit).Value);
when Ghdl_Rtik_Unitptr =>
case Bt.Kind is
when Ghdl_Rtik_Type_P64 =>
Put_I64
(stdout,
To_Ghdl_Rtin_Unitptr_Acc (Unit).Addr.I64);
when Ghdl_Rtik_Type_P32 =>
Put_I32
(stdout,
To_Ghdl_Rtin_Unitptr_Acc (Unit).Addr.I32);
when others =>
Internal_Error
("disp_rti.subtype.scalar_decl(P32/P64)");
end case;
when others =>
Internal_Error
("disp_rti.subtype.scalar_decl(P32/P64)");
end case;
end loop;
end if;
end;
when others =>
Disp_Subtype_Indication
(To_Ghdl_Rti_Access (Def), Ctxt, Null_Address);
end case;
New_Line;
end Disp_Subtype_Scalar_Decl;
procedure Disp_Type_Array_Decl (Def : Ghdl_Rtin_Type_Array_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
begin
Disp_Indent (Indent);
Disp_Kind (Def.Common.Kind);
Put (": ");
Disp_Name (Def.Name);
Put (" is array (");
for I in 0 .. Def.Nbr_Dim - 1 loop
if I /= 0 then
Put (", ");
end if;
Disp_Subtype_Indication (Def.Indexes (I), Ctxt, Null_Address);
Put (" range <>");
end loop;
Put (") of ");
Disp_Subtype_Indication (Def.Element, Ctxt, Null_Address);
New_Line;
end Disp_Type_Array_Decl;
procedure Disp_Subtype_Array_Decl (Def : Ghdl_Rtin_Subtype_Composite_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
Basetype : constant Ghdl_Rtin_Type_Array_Acc :=
To_Ghdl_Rtin_Type_Array_Acc (Def.Basetype);
Layout : Address;
begin
Disp_Indent (Indent);
Disp_Kind (Def.Common.Kind);
Put (": ");
Disp_Name (Def.Name);
Put (" is ");
Layout := Loc_To_Addr (Def.Common.Depth, Def.Layout, Ctxt);
Disp_Type_Array_Name (Basetype, Array_Layout_To_Bounds (Layout));
if Rti_Anonymous_Type (To_Ghdl_Rti_Access (Basetype)) then
Put (" of ");
Disp_Subtype_Indication (Basetype.Element, Ctxt, Null_Address);
end if;
New_Line;
end Disp_Subtype_Array_Decl;
procedure Disp_Subtype_Unbounded_Array_Decl
(Def : Ghdl_Rtin_Subtype_Composite_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
pragma Unreferenced (Ctxt);
Basetype : constant Ghdl_Rtin_Type_Array_Acc :=
To_Ghdl_Rtin_Type_Array_Acc (Def.Basetype);
begin
Disp_Indent (Indent);
Disp_Kind (Def.Common.Kind);
Put (": ");
Disp_Name (Def.Name);
Put (" is ");
Disp_Name (Basetype.Name);
New_Line;
end Disp_Subtype_Unbounded_Array_Decl;
procedure Disp_Type_File_Or_Access (Def : Ghdl_Rtin_Type_Fileacc_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
begin
Disp_Indent (Indent);
Disp_Kind (Def.Common.Kind);
Put (": ");
Disp_Name (Def.Name);
Put (" is ");
case Def.Common.Kind is
when Ghdl_Rtik_Type_Access =>
Put ("access ");
when Ghdl_Rtik_Type_File =>
Put ("file ");
when others =>
Put ("?? ");
end case;
Disp_Subtype_Indication (Def.Base, Ctxt, Null_Address);
New_Line;
end Disp_Type_File_Or_Access;
procedure Disp_Type_Record (Def : Ghdl_Rtin_Type_Record_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
El : Ghdl_Rtin_Element_Acc;
begin
Disp_Indent (Indent);
Disp_Kind (Def.Common.Kind);
Put (": ");
Disp_Name (Def.Name);
Put (" is record");
New_Line;
for I in 1 .. Def.Nbrel loop
El := To_Ghdl_Rtin_Element_Acc (Def.Elements (I - 1));
Disp_Indent (Indent + 1);
Disp_Kind (El.Common.Kind);
Put (": ");
Disp_Name (El.Name);
Put (": ");
Disp_Subtype_Indication (El.Eltype, Ctxt, Null_Address);
New_Line;
end loop;
end Disp_Type_Record;
procedure Disp_Subtype_Record_Decl (Def : Ghdl_Rtin_Subtype_Composite_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
Basetype : constant Ghdl_Rtin_Type_Record_Acc :=
To_Ghdl_Rtin_Type_Record_Acc (Def.Basetype);
Layout : Address;
begin
Disp_Indent (Indent);
Disp_Kind (Def.Common.Kind);
Put (": ");
Disp_Name (Def.Name);
Put (" is ");
Disp_Name (Basetype.Name);
if Def.Common.Kind = Ghdl_Rtik_Subtype_Record then
Layout := Loc_To_Addr (Def.Common.Depth, Def.Layout, Ctxt);
Disp_Type_Record_Bounds (Basetype, Layout);
end if;
New_Line;
end Disp_Subtype_Record_Decl;
procedure Disp_Type_Protected (Def : Ghdl_Rtin_Type_Scalar_Acc;
Ctxt : Rti_Context;
Indent : Natural)
is
pragma Unreferenced (Ctxt);
begin
Disp_Indent (Indent);
Disp_Kind (Def.Common.Kind);
Put (": ");
Disp_Name (Def.Name);
Put (" is protected");
New_Line;
end Disp_Type_Protected;
procedure Disp_Rti (Rti : Ghdl_Rti_Access;
Ctxt : Rti_Context;
Indent : Natural)
is
begin
if Rti = null then
return;
end if;
case Rti.Kind is
when Ghdl_Rtik_Entity
| Ghdl_Rtik_Architecture
| Ghdl_Rtik_Package
| Ghdl_Rtik_Process
| Ghdl_Rtik_Block =>
Disp_Block (To_Ghdl_Rtin_Block_Acc (Rti), Ctxt, Indent);
when Ghdl_Rtik_If_Generate
| Ghdl_Rtik_Case_Generate =>
Disp_Block (To_Ghdl_Rtin_Block_Acc (Rti), Ctxt, Indent);
when Ghdl_Rtik_For_Generate =>
Disp_For_Generate (To_Ghdl_Rtin_Generate_Acc (Rti), Ctxt, Indent);
when Ghdl_Rtik_Package_Body =>
Disp_Rti (To_Ghdl_Rtin_Block_Acc (Rti).Parent, Ctxt, Indent);
Disp_Block (To_Ghdl_Rtin_Block_Acc (Rti), Ctxt, Indent);
when Ghdl_Rtik_Port
| Ghdl_Rtik_Signal
| Ghdl_Rtik_Guard
| Ghdl_Rtik_Attribute_Quiet
| Ghdl_Rtik_Attribute_Stable
| Ghdl_Rtik_Attribute_Transaction =>
Disp_Object (To_Ghdl_Rtin_Object_Acc (Rti), True, Ctxt, Indent);
when Ghdl_Rtik_Generic
| Ghdl_Rtik_Constant
| Ghdl_Rtik_Variable
| Ghdl_Rtik_Iterator
| Ghdl_Rtik_File =>
Disp_Object (To_Ghdl_Rtin_Object_Acc (Rti), False, Ctxt, Indent);
when Ghdl_Rtik_Component =>
Disp_Component (To_Ghdl_Rtin_Component_Acc (Rti), Indent);
when Ghdl_Rtik_Attribute =>
Disp_Attribute (To_Ghdl_Rtin_Object_Acc (Rti), Ctxt, Indent);
when Ghdl_Rtik_Instance =>
Disp_Instance (To_Ghdl_Rtin_Instance_Acc (Rti), Ctxt, Indent);
when Ghdl_Rtik_Type_B1
| Ghdl_Rtik_Type_E8
| Ghdl_Rtik_Type_E32 =>
Disp_Type_Enum_Decl (To_Ghdl_Rtin_Type_Enum_Acc (Rti), Indent);
when Ghdl_Rtik_Subtype_Scalar =>
Disp_Subtype_Scalar_Decl (To_Ghdl_Rtin_Subtype_Scalar_Acc (Rti),
Ctxt, Indent);
when Ghdl_Rtik_Type_Array =>
Disp_Type_Array_Decl
(To_Ghdl_Rtin_Type_Array_Acc (Rti), Ctxt, Indent);
when Ghdl_Rtik_Subtype_Array =>
Disp_Subtype_Array_Decl
(To_Ghdl_Rtin_Subtype_Composite_Acc (Rti), Ctxt, Indent);
when Ghdl_Rtik_Subtype_Unbounded_Array =>
Disp_Subtype_Unbounded_Array_Decl
(To_Ghdl_Rtin_Subtype_Composite_Acc (Rti), Ctxt, Indent);
when Ghdl_Rtik_Type_Access
| Ghdl_Rtik_Type_File =>
Disp_Type_File_Or_Access
(To_Ghdl_Rtin_Type_Fileacc_Acc (Rti), Ctxt, Indent);
when Ghdl_Rtik_Type_Record
| Ghdl_Rtik_Type_Unbounded_Record =>
Disp_Type_Record
(To_Ghdl_Rtin_Type_Record_Acc (Rti), Ctxt, Indent);
when Ghdl_Rtik_Subtype_Record
| Ghdl_Rtik_Subtype_Unbounded_Record =>
Disp_Subtype_Record_Decl
(To_Ghdl_Rtin_Subtype_Composite_Acc (Rti), Ctxt, Indent);
when Ghdl_Rtik_Type_Protected =>
Disp_Type_Protected
(To_Ghdl_Rtin_Type_Scalar_Acc (Rti), Ctxt, Indent);
when Ghdl_Rtik_Psl_Cover
| Ghdl_Rtik_Psl_Assume
| Ghdl_Rtik_Psl_Assert =>
Disp_Psl_Directive (To_Ghdl_Rtin_Object_Acc (Rti), Ctxt, Indent);
when Ghdl_Rtik_Psl_Endpoint =>
Disp_Psl_Endpoint_Directive
(To_Ghdl_Rtin_Object_Acc (Rti), Ctxt, Indent);
when others =>
Disp_Indent (Indent);
Disp_Kind (Rti.Kind);
Put_Line (" ? ");
end case;
end Disp_Rti;
Disp_Rti_Flag : Boolean := False;
procedure Disp_All
is
Ctxt : Rti_Context;
begin
if not Disp_Rti_Flag then
return;
end if;
Put ("DISP_RTI.Disp_All: ");
Disp_Kind (Ghdl_Rti_Top.Common.Kind);
New_Line;
Ctxt := (Base => Ghdl_Rti_Top_Instance,
Block => Ghdl_Rti_Top.Parent);
Disp_Rti_Arr (Ghdl_Rti_Top.Nbr_Child,
Ghdl_Rti_Top.Children,
Ctxt, 0);
Disp_Rti (Ghdl_Rti_Top.Parent, Ctxt, 0);
--Disp_Hierarchy;
end Disp_All;
function Disp_Rti_Option (Opt : String) return Boolean
is
begin
if Opt = "--dump-rti" then
Disp_Rti_Flag := True;
return True;
else
return False;
end if;
end Disp_Rti_Option;
procedure Disp_Rti_Help
is
procedure P (Str : String) renames Put_Line;
begin
P (" --dump-rti dump Run Time Information");
end Disp_Rti_Help;
Disp_Rti_Hooks : aliased constant Hooks_Type :=
(Desc => new String'("dump-rti: implement --dump-rti"),
Option => Disp_Rti_Option'Access,
Help => Disp_Rti_Help'Access,
Init => null,
Start => Disp_All'Access,
Finish => null);
procedure Register is
begin
Register_Hooks (Disp_Rti_Hooks'Access);
end Register;
end Grt.Disp_Rti;
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