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--  Create declarations for synthesis.
--  Copyright (C) 2017 Tristan Gingold
--
--  This file is part of GHDL.
--
--  This program 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 of the License, or
--  (at your option) any later version.
--
--  This program 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 this program; if not, write to the Free Software
--  Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
--  MA 02110-1301, USA.

with Types; use Types;
with Mutils; use Mutils;

with Netlists; use Netlists;
with Netlists.Builders; use Netlists.Builders;
with Netlists.Folds; use Netlists.Folds;
with Netlists.Utils; use Netlists.Utils;
with Netlists.Gates;

with Vhdl.Errors;
with Vhdl.Utils; use Vhdl.Utils;
with Vhdl.Std_Package;
with Vhdl.Ieee.Std_Logic_1164;

with Synth.Environment; use Synth.Environment;
with Synth.Expr; use Synth.Expr;
with Synth.Stmts;
with Synth.Source; use Synth.Source;
with Synth.Errors; use Synth.Errors;
with Synth.Files_Operations;
with Synth.Values; use Synth.Values;

package body Synth.Decls is
   procedure Synth_Anonymous_Subtype_Indication
     (Syn_Inst : Synth_Instance_Acc; Atype : Node);

   procedure Create_Var_Wire
     (Syn_Inst : Synth_Instance_Acc; Decl : Iir; Init : Valtyp)
   is
      Vt : constant Valtyp := Get_Value (Syn_Inst, Decl);
      Value : Net;
      Ival : Net;
      W : Width;
      Name : Sname;
   begin
      case Vt.Val.Kind is
         when Value_Wire =>
            --  FIXME: get the width directly from the wire ?
            W := Get_Type_Width (Vt.Typ);
            Name := New_Sname_User (Get_Identifier (Decl),
                                    Get_Sname (Syn_Inst));
            if Init /= No_Valtyp then
               Ival := Get_Net (Init);
               pragma Assert (Get_Width (Ival) = W);
               Value := Build_Isignal (Get_Build (Syn_Inst), Name, Ival);
            else
               Value := Build_Signal (Get_Build (Syn_Inst), Name, W);
            end if;
            Set_Location (Value, Decl);
            Set_Wire_Gate (Vt.Val.W, Value);
         when others =>
            raise Internal_Error;
      end case;
   end Create_Var_Wire;

   procedure Synth_Subtype_Indication_If_Anonymous
     (Syn_Inst : Synth_Instance_Acc; Atype : Node) is
   begin
      if Get_Type_Declarator (Atype) = Null_Node then
         Synth_Subtype_Indication (Syn_Inst, Atype);
      end if;
   end Synth_Subtype_Indication_If_Anonymous;

   function Synth_Array_Type_Definition
     (Syn_Inst : Synth_Instance_Acc; Def : Node) return Type_Acc
   is
      El_Type : constant Node := Get_Element_Subtype (Def);
      Ndims : constant Natural := Get_Nbr_Dimensions (Def);
      El_Typ : Type_Acc;
      Typ : Type_Acc;
   begin
      Synth_Subtype_Indication_If_Anonymous (Syn_Inst, El_Type);
      El_Typ := Get_Subtype_Object (Syn_Inst, El_Type);

      if El_Typ.Kind in Type_Nets and then Ndims = 1 then
         Typ := Create_Unbounded_Vector (El_Typ);
      else
         Typ := Create_Unbounded_Array (Dim_Type (Ndims), El_Typ);
      end if;
      return Typ;
   end Synth_Array_Type_Definition;

   --  Synth subtype of record elements.
   procedure Synth_Record_Elements_Definition
     (Syn_Inst : Synth_Instance_Acc; Def : Node)
   is
      El_List : constant Node_Flist := Get_Elements_Declaration_List (Def);
      El : Node;
   begin
      for I in Flist_First .. Flist_Last (El_List) loop
         El := Get_Nth_Element (El_List, I);
         Synth_Declaration_Type (Syn_Inst, El);
      end loop;
   end Synth_Record_Elements_Definition;

   function Synth_Record_Type_Definition
     (Syn_Inst : Synth_Instance_Acc; Def : Node) return Type_Acc
   is
      El_List : constant Node_Flist := Get_Elements_Declaration_List (Def);
      Rec_Els : Rec_El_Array_Acc;
      El : Node;
      El_Typ : Type_Acc;
   begin
      if not Is_Fully_Constrained_Type (Def) then
         return null;
      end if;
      Rec_Els := Create_Rec_El_Array
        (Iir_Index32 (Get_Nbr_Elements (El_List)));

      for I in Flist_First .. Flist_Last (El_List) loop
         El := Get_Nth_Element (El_List, I);
         El_Typ := Get_Subtype_Object (Syn_Inst, Get_Type (El));
         Rec_Els.E (Iir_Index32 (I + 1)).Typ := El_Typ;
      end loop;

      return Create_Record_Type (Rec_Els);
   end Synth_Record_Type_Definition;

   function Synth_Access_Type_Definition
     (Syn_Inst : Synth_Instance_Acc; Def : Node) return Type_Acc
   is
      Des_Type : constant Node := Get_Designated_Type (Def);
      Des_Typ : Type_Acc;
      Typ : Type_Acc;
   begin
      Synth_Subtype_Indication_If_Anonymous (Syn_Inst, Des_Type);
      Des_Typ := Get_Subtype_Object (Syn_Inst, Des_Type);

      Typ := Create_Access_Type (Des_Typ);
      return Typ;
   end Synth_Access_Type_Definition;

   function Synth_File_Type_Definition
     (Syn_Inst : Synth_Instance_Acc; Def : Node) return Type_Acc
   is
      File_Type : constant Node := Get_Type (Get_File_Type_Mark (Def));
      File_Typ : Type_Acc;
      Typ : Type_Acc;
   begin
      File_Typ := Get_Subtype_Object (Syn_Inst, File_Type);

      Typ := Create_File_Type (File_Typ);
      return Typ;
   end Synth_File_Type_Definition;

   function Scalar_Size_To_Size (Def : Node) return Size_Type is
   begin
      case Get_Scalar_Size (Def) is
         when Scalar_8 =>
            return 1;
         when Scalar_16 =>
            return 2;
         when Scalar_32 =>
            return 4;
         when Scalar_64 =>
            return 8;
      end case;
   end Scalar_Size_To_Size;

   procedure Synth_Type_Definition (Syn_Inst : Synth_Instance_Acc; Def : Node)
   is
      Typ : Type_Acc;
   begin
      case Get_Kind (Def) is
         when Iir_Kind_Enumeration_Type_Definition =>
            if Def = Vhdl.Ieee.Std_Logic_1164.Std_Ulogic_Type
              or else Def = Vhdl.Ieee.Std_Logic_1164.Std_Logic_Type
            then
               Typ := Logic_Type;
            elsif Def = Vhdl.Std_Package.Boolean_Type_Definition then
               Typ := Boolean_Type;
            elsif Def = Vhdl.Std_Package.Bit_Type_Definition then
               Typ := Bit_Type;
            else
               declare
                  Nbr_El : constant Natural :=
                    Get_Nbr_Elements (Get_Enumeration_Literal_List (Def));
                  Rng : Discrete_Range_Type;
                  W : Width;
               begin
                  W := Uns32 (Clog2 (Uns64 (Nbr_El)));
                  Rng := (Dir => Dir_To,
                          Is_Signed => False,
                          Left => 0,
                          Right => Int64 (Nbr_El - 1));
                  Typ := Create_Discrete_Type
                    (Rng, Scalar_Size_To_Size (Def), W);
               end;
            end if;
         when Iir_Kind_Array_Type_Definition =>
            Typ := Synth_Array_Type_Definition (Syn_Inst, Def);
         when Iir_Kind_Access_Type_Definition =>
            Typ := Synth_Access_Type_Definition (Syn_Inst, Def);
         when Iir_Kind_File_Type_Definition =>
            Typ := Synth_File_Type_Definition (Syn_Inst, Def);
         when Iir_Kind_Record_Type_Definition =>
            Synth_Record_Elements_Definition (Syn_Inst, Def);
            Typ := Synth_Record_Type_Definition (Syn_Inst, Def);
         when Iir_Kind_Protected_Type_Declaration =>
            Synth_Declarations (Syn_Inst, Get_Declaration_Chain (Def));
         when others =>
            Vhdl.Errors.Error_Kind ("synth_type_definition", Def);
      end case;
      if Typ /= null then
         Create_Subtype_Object (Syn_Inst, Def, Typ);
      end if;
   end Synth_Type_Definition;

   procedure Synth_Anonymous_Type_Definition
     (Syn_Inst : Synth_Instance_Acc; Def : Node; St : Node)
   is
      Typ : Type_Acc;
   begin
      case Get_Kind (Def) is
         when Iir_Kind_Integer_Type_Definition
           | Iir_Kind_Physical_Type_Definition =>
            declare
               Cst : constant Node := Get_Range_Constraint (St);
               L, R : Int64;
               Rng : Discrete_Range_Type;
               W : Width;
            begin
               L := Get_Value (Get_Left_Limit (Cst));
               R := Get_Value (Get_Right_Limit (Cst));
               Rng := Synth_Discrete_Range_Expression
                 (L, R, Get_Direction (Cst));
               W := Discrete_Range_Width (Rng);
               Typ := Create_Discrete_Type
                 (Rng, Scalar_Size_To_Size (Def), W);
            end;
         when Iir_Kind_Floating_Type_Definition =>
            declare
               Cst : constant Node := Get_Range_Constraint (St);
               L, R : Fp64;
               Rng : Float_Range_Type;
            begin
               L := Get_Fp_Value (Get_Left_Limit (Cst));
               R := Get_Fp_Value (Get_Right_Limit (Cst));
               Rng := (Get_Direction (Cst), L, R);
               Typ := Create_Float_Type (Rng);
            end;
         when Iir_Kind_Array_Type_Definition =>
            Typ := Synth_Array_Type_Definition (Syn_Inst, Def);
         when others =>
            Vhdl.Errors.Error_Kind ("synth_anonymous_type_definition", Def);
      end case;
      Create_Subtype_Object (Syn_Inst, Def, Typ);
   end Synth_Anonymous_Type_Definition;

   function Synth_Discrete_Range_Constraint
     (Syn_Inst : Synth_Instance_Acc; Rng : Node) return Discrete_Range_Type
   is
      Res : Discrete_Range_Type;
   begin
      Synth_Discrete_Range (Syn_Inst, Rng, Res);
      return Res;
   end Synth_Discrete_Range_Constraint;

   function Synth_Float_Range_Constraint
     (Syn_Inst : Synth_Instance_Acc; Rng : Node) return Float_Range_Type is
   begin
      case Get_Kind (Rng) is
         when Iir_Kind_Range_Expression =>
            --  FIXME: check range.
            return Synth_Float_Range_Expression (Syn_Inst, Rng);
         when others =>
            Vhdl.Errors.Error_Kind ("synth_float_range_constraint", Rng);
      end case;
   end Synth_Float_Range_Constraint;

   function Synth_Array_Subtype_Indication
     (Syn_Inst : Synth_Instance_Acc; Atype : Node) return Type_Acc
   is
      El_Type : constant Node := Get_Element_Subtype (Atype);
      St_Indexes : constant Node_Flist := Get_Index_Subtype_List (Atype);
      Ptype : Node;
      St_El : Node;
      Btyp : Type_Acc;
      Etyp : Type_Acc;
      Bnds : Bound_Array_Acc;
   begin
      --  VHDL08
      if Get_Array_Element_Constraint (Atype) /= Null_Node
        or else
        (Get_Resolution_Indication (Atype) /= Null_Node
           and then
           (Get_Kind (Get_Resolution_Indication (Atype))
              = Iir_Kind_Array_Element_Resolution))
      then
         --  This subtype has created a new anonymous subtype for the
         --  element.
         Synth_Subtype_Indication (Syn_Inst, El_Type);
      end if;

      if not Get_Index_Constraint_Flag (Atype) then
         Ptype := Get_Type (Get_Subtype_Type_Mark (Atype));
         if Get_Element_Subtype (Ptype) = Get_Element_Subtype (Atype) then
            --  That's an alias.
            --  FIXME: maybe a resolution function was added?
            --  FIXME: also handle resolution added in element subtype.
            return Get_Subtype_Object (Syn_Inst, Ptype);
         end if;
      end if;

      Btyp := Get_Subtype_Object (Syn_Inst, Get_Base_Type (Atype));
      case Btyp.Kind is
         when Type_Unbounded_Vector =>
            if Get_Index_Constraint_Flag (Atype) then
               St_El := Get_Index_Type (St_Indexes, 0);
               return Create_Vector_Type
                 (Synth_Bounds_From_Range (Syn_Inst, St_El), Btyp.Uvec_El);
            else
               --  An alias.
               --  Handle vhdl08 definition of std_logic_vector from
               --  std_ulogic_vector.
               return Btyp;
            end if;
         when Type_Unbounded_Array =>
            --  FIXME: partially constrained arrays, subtype in indexes...
            Etyp := Get_Subtype_Object (Syn_Inst, El_Type);
            if Get_Index_Constraint_Flag (Atype) then
               Bnds := Create_Bound_Array
                 (Dim_Type (Get_Nbr_Elements (St_Indexes)));
               for I in Flist_First .. Flist_Last (St_Indexes) loop
                  St_El := Get_Index_Type (St_Indexes, I);
                  Bnds.D (Dim_Type (I + 1)) :=
                    Synth_Bounds_From_Range (Syn_Inst, St_El);
               end loop;
               return Create_Array_Type (Bnds, Etyp);
            else
               raise Internal_Error;
            end if;
         when others =>
            raise Internal_Error;
      end case;
   end Synth_Array_Subtype_Indication;

   function Synth_Subtype_Indication
     (Syn_Inst : Synth_Instance_Acc; Atype : Node) return Type_Acc is
   begin
      --  TODO: handle aliases directly.
      case Get_Kind (Atype) is
         when Iir_Kind_Array_Subtype_Definition =>
            return Synth_Array_Subtype_Indication (Syn_Inst, Atype);
         when Iir_Kind_Record_Subtype_Definition =>
            return Synth_Record_Type_Definition (Syn_Inst, Atype);
         when Iir_Kind_Integer_Subtype_Definition
           | Iir_Kind_Physical_Subtype_Definition
           | Iir_Kind_Enumeration_Subtype_Definition =>
            declare
               Btype : constant Type_Acc :=
                 Get_Subtype_Object (Syn_Inst, Get_Base_Type (Atype));
               Rng : Discrete_Range_Type;
               W : Width;
            begin
               if Btype.Kind in Type_Nets then
                  --  A subtype of a bit/logic type is still a bit/logic.
                  --  FIXME: bounds.
                  return Btype;
               else
                  Rng := Synth_Discrete_Range_Constraint
                    (Syn_Inst, Get_Range_Constraint (Atype));
                  W := Discrete_Range_Width (Rng);
                  return
                    Create_Discrete_Type (Rng, Btype.Sz, W);
               end if;
            end;
         when Iir_Kind_Floating_Subtype_Definition =>
            declare
               Rng : Float_Range_Type;
            begin
               Rng := Synth_Float_Range_Constraint
                 (Syn_Inst, Get_Range_Constraint (Atype));
               return Create_Float_Type (Rng);
            end;
         when others =>
            Vhdl.Errors.Error_Kind ("synth_subtype_indication", Atype);
      end case;
   end Synth_Subtype_Indication;

   procedure Synth_Subtype_Indication
     (Syn_Inst : Synth_Instance_Acc; Atype : Node)
   is
      Typ : Type_Acc;
   begin
      Typ := Synth_Subtype_Indication (Syn_Inst, Atype);
      Create_Subtype_Object (Syn_Inst, Atype, Typ);
   end Synth_Subtype_Indication;

   procedure Synth_Anonymous_Subtype_Indication
     (Syn_Inst : Synth_Instance_Acc; Atype : Node) is
   begin
      if Atype = Null_Node
        or else Get_Type_Declarator (Atype) /= Null_Node
      then
         return;
      end if;
      Synth_Subtype_Indication (Syn_Inst, Atype);
   end Synth_Anonymous_Subtype_Indication;

   pragma Unreferenced (Synth_Anonymous_Subtype_Indication);

   function Get_Declaration_Type (Decl : Node) return Node
   is
      Ind : constant Node := Get_Subtype_Indication (Decl);
      Atype : Node;
   begin
      if Ind = Null_Node then
         --  No subtype indication; use the same type.
         return Null_Node;
      end if;
      Atype := Ind;
      loop
         case Get_Kind (Atype) is
            when Iir_Kinds_Denoting_Name =>
               Atype := Get_Named_Entity (Atype);
            when Iir_Kind_Subtype_Declaration
              | Iir_Kind_Type_Declaration =>
               --  Type already declared, so already handled.
               return Null_Node;
            when Iir_Kind_Array_Subtype_Definition
              | Iir_Kind_Record_Subtype_Definition
              | Iir_Kind_Integer_Subtype_Definition
              | Iir_Kind_Floating_Subtype_Definition
              | Iir_Kind_Physical_Subtype_Definition
              | Iir_Kind_Enumeration_Subtype_Definition =>
               return Atype;
            when others =>
               Vhdl.Errors.Error_Kind ("get_declaration_type", Atype);
         end case;
      end loop;
   end Get_Declaration_Type;

   procedure Synth_Declaration_Type
     (Syn_Inst : Synth_Instance_Acc; Decl : Node)
   is
      Atype : constant Node := Get_Declaration_Type (Decl);
   begin
      if Atype = Null_Node then
         return;
      end if;
      Synth_Subtype_Indication (Syn_Inst, Atype);
   end Synth_Declaration_Type;

   procedure Synth_Constant_Declaration
     (Syn_Inst : Synth_Instance_Acc; Decl : Node; Last_Type : in out Node)
   is
      Deferred_Decl : constant Node := Get_Deferred_Declaration (Decl);
      First_Decl : Node;
      Decl_Type : Node;
      Val : Valtyp;
      Cst : Valtyp;
      Obj_Type : Type_Acc;
   begin
      Synth_Declaration_Type (Syn_Inst, Decl);
      if Deferred_Decl = Null_Node
        or else Get_Deferred_Declaration_Flag (Decl)
      then
         --  Create the object (except for full declaration of a
         --  deferred constant).
         Create_Object (Syn_Inst, Decl, No_Valtyp);
      end if;
      --  Initialize the value (except for a deferred declaration).
      if Deferred_Decl = Null_Node then
         --  A normal constant declaration
         First_Decl := Decl;
      elsif not Get_Deferred_Declaration_Flag (Decl) then
         --  The full declaration of a deferred constant.
         First_Decl := Deferred_Decl;
      else
         --  The first declaration of a deferred constant.
         First_Decl := Null_Node;
      end if;
      if First_Decl /= Null_Node then
         --  Use the type of the declaration.  The type of the constant may
         --  be derived from the value.
         --  FIXME: what about multiple declarations ?
         Decl_Type := Get_Subtype_Indication (Decl);
         if Decl_Type = Null_Node then
            Decl_Type := Last_Type;
         else
            if Get_Kind (Decl_Type) in Iir_Kinds_Denoting_Name then
               --  Type mark.
               Decl_Type := Get_Type (Get_Named_Entity (Decl_Type));
            end if;
            Last_Type := Decl_Type;
         end if;
         Obj_Type := Get_Subtype_Object (Syn_Inst, Decl_Type);
         Val := Synth_Expression_With_Type
           (Syn_Inst, Get_Default_Value (Decl), Obj_Type);
         if Val = No_Valtyp then
            Set_Error (Syn_Inst);
            return;
         end if;
         Val := Synth_Subtype_Conversion (Val, Obj_Type, True, Decl);
         --  For constant functions, the value must be constant.
         pragma Assert (not Get_Instance_Const (Syn_Inst)
                          or else Is_Static (Val.Val));
         case Val.Val.Kind is
            when Value_Const
              | Value_Alias =>
               Cst := Val;
            when others =>
               Cst := Create_Value_Const (Val, Decl);
         end case;
         Create_Object_Force (Syn_Inst, First_Decl, Cst);
      end if;
   end Synth_Constant_Declaration;

   procedure Synth_Attribute_Specification
     (Syn_Inst : Synth_Instance_Acc; Spec : Node)
   is
      Decl : constant Node := Get_Attribute_Designator (Spec);
      Value : Iir_Attribute_Value;
      Val : Valtyp;
      Val_Type : Type_Acc;
   begin
      Val_Type := Get_Subtype_Object
        (Syn_Inst, Get_Type (Get_Named_Entity (Decl)));
      Value := Get_Attribute_Value_Spec_Chain (Spec);
      while Value /= Null_Iir loop
         --  2. The expression is evaluated to determine the value
         --     of the attribute.
         --     It is an error if the value of the expression does not
         --     belong to the subtype of the attribute; if the
         --     attribute is of an array type, then an implicit
         --     subtype conversion is first performed on the value,
         --     unless the attribute's subtype indication denotes an
         --     unconstrained array type.
         Val := Synth_Expression_With_Type
           (Syn_Inst, Get_Expression (Spec), Val_Type);
         --  Check_Constraints (Instance, Val, Attr_Type, Decl);

         --  3. A new instance of the designated attribute is created
         --     and associated with each of the affected items.
         --
         --  4. Each new attribute instance is assigned the value of
         --     the expression.
         Create_Object (Syn_Inst, Value, Val);
         --  Unshare (Val, Instance_Pool);

         Value := Get_Spec_Chain (Value);
      end loop;
   end Synth_Attribute_Specification;

   procedure Synth_Subprogram_Declaration
     (Syn_Inst : Synth_Instance_Acc; Subprg : Node)
   is
      Inter : Node;
   begin
      if Is_Second_Subprogram_Specification (Subprg) then
         --  Already handled.
         return;
      end if;

      Inter := Get_Interface_Declaration_Chain (Subprg);
      while Inter /= Null_Node loop
         Synth_Declaration_Type (Syn_Inst, Inter);
         Inter := Get_Chain (Inter);
      end loop;
   end Synth_Subprogram_Declaration;

   procedure Synth_Convertible_Declarations (Syn_Inst : Synth_Instance_Acc)
   is
      use Vhdl.Std_Package;
   begin
      Create_Subtype_Object
        (Syn_Inst, Convertible_Integer_Type_Definition,
         Get_Subtype_Object (Syn_Inst, Universal_Integer_Type_Definition));
      Create_Subtype_Object
        (Syn_Inst, Convertible_Real_Type_Definition,
         Get_Subtype_Object (Syn_Inst, Universal_Real_Type_Definition));
   end Synth_Convertible_Declarations;

   function Create_Package_Instance (Parent_Inst : Synth_Instance_Acc;
                                     Pkg : Node)
                                    return Synth_Instance_Acc
   is
      Syn_Inst : Synth_Instance_Acc;
   begin
      Syn_Inst := Make_Instance (Parent_Inst, Pkg);
      if Get_Kind (Get_Parent (Pkg)) = Iir_Kind_Design_Unit then
         --  Global package.
         Create_Package_Object (Parent_Inst, Pkg, Syn_Inst, True);
      else
         --  Local package: check elaboration order.
         Create_Package_Object (Parent_Inst, Pkg, Syn_Inst, False);
      end if;
      return Syn_Inst;
   end Create_Package_Instance;

   procedure Synth_Package_Declaration
     (Parent_Inst : Synth_Instance_Acc; Pkg : Node)
   is
      Syn_Inst : Synth_Instance_Acc;
   begin
      if Is_Uninstantiated_Package (Pkg) then
         --  Nothing to do (yet) for uninstantiated packages.
         return;
      end if;

      Syn_Inst := Create_Package_Instance (Parent_Inst, Pkg);

      Synth_Declarations (Syn_Inst, Get_Declaration_Chain (Pkg));
      if Pkg = Vhdl.Std_Package.Standard_Package then
         Synth_Convertible_Declarations (Syn_Inst);
      end if;
   end Synth_Package_Declaration;

   procedure Synth_Package_Body
     (Parent_Inst : Synth_Instance_Acc; Pkg : Node; Bod : Node)
   is
      Pkg_Inst : Synth_Instance_Acc;
   begin
      if Is_Uninstantiated_Package (Pkg) then
         --  Nothing to do (yet) for uninstantiated packages.
         return;
      end if;

      Pkg_Inst := Get_Package_Object (Parent_Inst, Pkg);

      Synth_Declarations (Pkg_Inst, Get_Declaration_Chain (Bod));
   end Synth_Package_Body;

   procedure Synth_Generics_Association (Sub_Inst : Synth_Instance_Acc;
                                         Syn_Inst : Synth_Instance_Acc;
                                         Inter_Chain : Node;
                                         Assoc_Chain : Node)
   is
      Inter : Node;
      Inter_Type : Type_Acc;
      Assoc : Node;
      Assoc_Inter : Node;
      Actual : Node;
      Val : Valtyp;
   begin
      Assoc := Assoc_Chain;
      Assoc_Inter := Inter_Chain;
      while Is_Valid (Assoc) loop
         Inter := Get_Association_Interface (Assoc, Assoc_Inter);

         Synth_Declaration_Type (Sub_Inst, Inter);
         Inter_Type := Get_Subtype_Object (Sub_Inst, Get_Type (Inter));

         pragma Assert (Iir_Parameter_Modes (Get_Mode (Inter)) = Iir_In_Mode);
         case Get_Kind (Assoc) is
            when Iir_Kind_Association_Element_Open =>
               Actual := Get_Default_Value (Inter);
               Val := Synth_Expression_With_Type
                 (Sub_Inst, Actual, Inter_Type);
            when Iir_Kind_Association_Element_By_Expression =>
               Actual := Get_Actual (Assoc);
               Val := Synth_Expression_With_Type
                 (Syn_Inst, Actual, Inter_Type);
            when others =>
               raise Internal_Error;
         end case;

         Val := Synth_Subtype_Conversion (Val, Inter_Type, True, Assoc);

         pragma Assert (Is_Static (Val.Val));

         Create_Object (Sub_Inst, Inter, Val);

         Next_Association_Interface (Assoc, Assoc_Inter);
      end loop;
   end Synth_Generics_Association;

   procedure Synth_Package_Instantiation
     (Parent_Inst : Synth_Instance_Acc; Pkg : Node)
   is
      Bod : constant Node := Get_Instance_Package_Body (Pkg);
      Sub_Inst : Synth_Instance_Acc;
   begin
      Sub_Inst := Create_Package_Instance (Parent_Inst, Pkg);

      Synth_Generics_Association
        (Sub_Inst, Parent_Inst,
         Get_Generic_Chain (Pkg), Get_Generic_Map_Aspect_Chain (Pkg));

      Synth_Declarations (Sub_Inst, Get_Declaration_Chain (Pkg));

      if Bod /= Null_Node then
         --  Macro expended package instantiation.
         raise Internal_Error;
      else
         --  Shared body
         declare
            Uninst : constant Node := Get_Uninstantiated_Package_Decl (Pkg);
            Uninst_Bod : constant Node := Get_Package_Body (Uninst);
         begin
            Set_Uninstantiated_Scope (Sub_Inst, Uninst);
            --  Synth declarations of (optional) body.
            if Uninst_Bod /= Null_Node then
               Synth_Declarations
                 (Sub_Inst, Get_Declaration_Chain (Uninst_Bod));
            end if;
         end;
      end if;
   end Synth_Package_Instantiation;

   procedure Synth_Variable_Declaration
     (Syn_Inst : Synth_Instance_Acc; Decl : Node; Is_Subprg : Boolean)
   is
      Def : constant Node := Get_Default_Value (Decl);
      Decl_Type : constant Node := Get_Type (Decl);
      Init : Valtyp;
      Obj_Typ : Type_Acc;
      Wid : Wire_Id;
   begin
      Synth_Declaration_Type (Syn_Inst, Decl);
      if Get_Kind (Decl_Type) = Iir_Kind_Protected_Type_Declaration then
         Error_Msg_Synth
           (+Decl, "protected type variable is not synthesizable");
         Set_Error (Syn_Inst);
         Create_Object (Syn_Inst, Decl, No_Valtyp);
         return;
      end if;

      Obj_Typ := Get_Subtype_Object (Syn_Inst, Decl_Type);
      if not Obj_Typ.Is_Synth
        and then not Get_Instance_Const (Syn_Inst)
      then
         Error_Msg_Synth
           (+Decl, "variable with access type is not synthesizable");
         --  FIXME: use a poison value ?
         Create_Object (Syn_Inst, Decl, Create_Value_Default (Obj_Typ));
      else
         if Is_Valid (Def) then
            Init := Synth_Expression_With_Type (Syn_Inst, Def, Obj_Typ);
            Init := Synth_Subtype_Conversion (Init, Obj_Typ, False, Decl);
         else
            Init := Create_Value_Default (Obj_Typ);
         end if;
         if Get_Instance_Const (Syn_Inst) then
            Init := Unshare (Init, Current_Pool);
            Create_Object (Syn_Inst, Decl, Init);
         else
            Create_Wire_Object (Syn_Inst, Wire_Variable, Decl);
            Create_Var_Wire (Syn_Inst, Decl, Init);
            Wid := Get_Value (Syn_Inst, Decl).Val.W;
            if Is_Subprg then
               if Is_Static (Init.Val) then
                  Phi_Assign_Static (Wid, Get_Memtyp (Init));
               else
                  Phi_Assign_Net
                    (Get_Build (Syn_Inst), Wid, Get_Net (Init), 0);
               end if;
            end if;
         end if;
      end if;
   end Synth_Variable_Declaration;

   procedure Synth_Object_Alias_Declaration
     (Syn_Inst : Synth_Instance_Acc; Decl : Node)
   is
      Atype : constant Node := Get_Declaration_Type (Decl);
      Off : Value_Offsets;
      Dyn : Stmts.Dyn_Name;
      Res : Valtyp;
      Obj_Typ : Type_Acc;
      Base : Valtyp;
      Typ : Type_Acc;
   begin
      --  Subtype indication may not be present.
      if Atype /= Null_Node then
         Synth_Subtype_Indication (Syn_Inst, Atype);
         Obj_Typ := Get_Subtype_Object (Syn_Inst, Atype);
      else
         Obj_Typ := null;
      end if;

      Stmts.Synth_Assignment_Prefix (Syn_Inst, Get_Name (Decl),
                                     Base, Typ, Off, Dyn);
      pragma Assert (Dyn.Voff = No_Net);
      if Base.Val.Kind = Value_Net then
         --  Object is a net if it is not writable.  Extract the
         --  bits for the alias.
         Res := Create_Value_Net
           (Build2_Extract (Get_Build (Syn_Inst),
                            Base.Val.N, Off.Net_Off, Typ.W),
            Typ);
      else
         Res := Create_Value_Alias (Base, Off, Typ);
      end if;
      if Obj_Typ /= null then
         Res := Synth_Subtype_Conversion (Res, Obj_Typ, True, Decl);
      end if;
      Create_Object (Syn_Inst, Decl, Res);
   end Synth_Object_Alias_Declaration;

   procedure Synth_Declaration (Syn_Inst : Synth_Instance_Acc;
                                Decl : Node;
                                Is_Subprg : Boolean;
                                Last_Type : in out Node) is
   begin
      case Get_Kind (Decl) is
         when Iir_Kind_Variable_Declaration =>
            Synth_Variable_Declaration (Syn_Inst, Decl, Is_Subprg);
         when Iir_Kind_Interface_Variable_Declaration =>
            --  Ignore default value.
            Create_Wire_Object (Syn_Inst, Wire_Variable, Decl);
            Create_Var_Wire (Syn_Inst, Decl, No_Valtyp);
         when Iir_Kind_Constant_Declaration =>
            Synth_Constant_Declaration (Syn_Inst, Decl, Last_Type);
         when Iir_Kind_Signal_Declaration =>
            Synth_Declaration_Type (Syn_Inst, Decl);
            declare
               Def : constant Iir := Get_Default_Value (Decl);
               --  Slot : constant Object_Slot_Type := Get_Info (Decl).Slot;
               Init : Valtyp;
               Obj_Typ : Type_Acc;
            begin
               Create_Wire_Object (Syn_Inst, Wire_Signal, Decl);
               if Is_Valid (Def) then
                  Obj_Typ := Get_Subtype_Object (Syn_Inst, Get_Type (Decl));
                  Init := Synth_Expression_With_Type (Syn_Inst, Def, Obj_Typ);
                  Init := Synth_Subtype_Conversion
                    (Init, Obj_Typ, False, Decl);
               else
                  Init := No_Valtyp;
               end if;
               Create_Var_Wire (Syn_Inst, Decl, Init);
            end;
         when Iir_Kind_Object_Alias_Declaration =>
            Synth_Object_Alias_Declaration (Syn_Inst, Decl);
         when Iir_Kind_Anonymous_Signal_Declaration =>
            --  Anonymous signals created by inertial associations are
            --  simply ignored.
            null;
         when Iir_Kind_Procedure_Declaration
           | Iir_Kind_Function_Declaration =>
            Synth_Subprogram_Declaration (Syn_Inst, Decl);
         when Iir_Kind_Procedure_Body
           | Iir_Kind_Function_Body =>
            null;
         when Iir_Kind_Non_Object_Alias_Declaration =>
            null;
         when Iir_Kind_Attribute_Declaration =>
            --  Nothing to do: the type is a type_mark, not a subtype
            --  indication.
            null;
         when Iir_Kind_Attribute_Specification =>
            Synth_Attribute_Specification (Syn_Inst, Decl);
         when Iir_Kind_Type_Declaration =>
            Synth_Type_Definition (Syn_Inst, Get_Type_Definition (Decl));
         when Iir_Kind_Anonymous_Type_Declaration =>
            Synth_Anonymous_Type_Definition
              (Syn_Inst, Get_Type_Definition (Decl),
               Get_Subtype_Definition (Decl));
         when  Iir_Kind_Subtype_Declaration =>
            Synth_Declaration_Type (Syn_Inst, Decl);
         when Iir_Kind_Component_Declaration =>
            null;
         when Iir_Kind_File_Declaration =>
            declare
               F : File_Index;
               Res : Valtyp;
               Obj_Typ : Type_Acc;
            begin
               F := Synth.Files_Operations.Elaborate_File_Declaration
                 (Syn_Inst, Decl);
               Obj_Typ := Get_Subtype_Object (Syn_Inst, Get_Type (Decl));
               Res := Create_Value_File (Obj_Typ, F);
               Create_Object (Syn_Inst, Decl, Res);
            end;
         when Iir_Kind_Protected_Type_Body =>
            null;
         when Iir_Kind_Psl_Default_Clock =>
            --  Ignored; directly used by PSL directives.
            null;
         when Iir_Kind_Use_Clause =>
            null;
         when Iir_Kind_Configuration_Specification =>
            null;
         when others =>
            Vhdl.Errors.Error_Kind ("synth_declaration", Decl);
      end case;
   end Synth_Declaration;

   procedure Synth_Declarations
     (Syn_Inst : Synth_Instance_Acc; Decls : Iir; Is_Subprg : Boolean := False)
   is
      Decl : Node;
      Last_Type : Node;
   begin
      Last_Type := Null_Node;
      Decl := Decls;
      while Is_Valid (Decl) loop
         Synth_Declaration (Syn_Inst, Decl, Is_Subprg, Last_Type);

         exit when Is_Error (Syn_Inst);

         Decl := Get_Chain (Decl);
      end loop;
   end Synth_Declarations;

   procedure Finalize_Signal (Syn_Inst : Synth_Instance_Acc; Decl : Node)
   is
      use Netlists.Gates;
      Vt : Valtyp;
      Gate_Net : Net;
      Gate : Instance;
      Drv : Net;
      Def_Val : Net;
   begin
      Vt := Get_Value (Syn_Inst, Decl);
      if Vt = No_Valtyp then
         pragma Assert (Is_Error (Syn_Inst));
         return;
      end if;

      Gate_Net := Get_Wire_Gate (Vt.Val.W);
      Gate := Get_Net_Parent (Gate_Net);
      case Get_Id (Gate) is
         when Id_Signal =>
            Drv := Get_Input_Net (Gate, 0);
            Def_Val := No_Net;
         when Id_Isignal =>
            Drv := Get_Input_Net (Gate, 0);
            Def_Val := Get_Input_Net (Gate, 1);
         when others =>
            --  Todo: output ?
            raise Internal_Error;
      end case;
      if Drv = No_Net then
         if Is_Connected (Get_Output (Gate, 0)) then
            --  No warning if the signal is not used.
            --  TODO: maybe simply remove it.
            if Def_Val = No_Net then
               Warning_Msg_Synth
                 (+Decl, "%n is never assigned and has no default value",
                  (1 => +Decl));
            else
               Warning_Msg_Synth (+Decl, "%n is never assigned", (1 => +Decl));
            end if;
         end if;
         if Def_Val = No_Net then
            Def_Val := Build_Const_X (Get_Build (Syn_Inst),
                                      Get_Width (Gate_Net));
         end if;
         Connect (Get_Input (Gate, 0), Def_Val);
      end if;

      Free_Wire (Vt.Val.W);
   end Finalize_Signal;

   procedure Finalize_Declaration
     (Syn_Inst : Synth_Instance_Acc; Decl : Node; Is_Subprg : Boolean) is
   begin
      case Get_Kind (Decl) is
         when Iir_Kind_Variable_Declaration
           | Iir_Kind_Interface_Variable_Declaration =>
            if not Get_Instance_Const (Syn_Inst) then
               declare
                  Vt : constant Valtyp := Get_Value (Syn_Inst, Decl);
               begin
                  if Vt /= No_Valtyp then
                     Free_Wire (Vt.Val.W);
                  end if;
               end;
            end if;
         when Iir_Kind_Constant_Declaration =>
            null;
         when Iir_Kind_Signal_Declaration =>
            pragma Assert (not Is_Subprg);
            Finalize_Signal (Syn_Inst, Decl);
         when Iir_Kind_Anonymous_Signal_Declaration =>
            null;
         when Iir_Kind_Object_Alias_Declaration =>
            null;
         when Iir_Kind_Procedure_Declaration
           | Iir_Kind_Function_Declaration =>
            null;
         when Iir_Kind_Procedure_Body
           | Iir_Kind_Function_Body =>
            null;
         when Iir_Kind_Non_Object_Alias_Declaration =>
            null;
         when Iir_Kind_Attribute_Declaration =>
            null;
         when Iir_Kind_Attribute_Specification =>
            null;
         when Iir_Kind_Type_Declaration =>
            null;
         when Iir_Kind_Anonymous_Type_Declaration =>
            null;
         when  Iir_Kind_Subtype_Declaration =>
            null;
         when Iir_Kind_Component_Declaration =>
            null;
         when Iir_Kind_File_Declaration =>
            null;
         when Iir_Kind_Configuration_Specification =>
            null;
         when Iir_Kind_Psl_Default_Clock =>
            --  Ignored; directly used by PSL directives.
            null;
         when others =>
            Vhdl.Errors.Error_Kind ("finalize_declaration", Decl);
      end case;
   end Finalize_Declaration;

   procedure Finalize_Declarations (Syn_Inst : Synth_Instance_Acc;
                                    Decls : Iir;
                                    Is_Subprg : Boolean := False)
   is
      Decl : Iir;
   begin
      Decl := Decls;
      while Is_Valid (Decl) loop
         Finalize_Declaration (Syn_Inst, Decl, Is_Subprg);

         Decl := Get_Chain (Decl);
      end loop;
   end Finalize_Declarations;
end Synth.Decls;