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|
-- PSL - Nodes definition. This is in fact -*- Ada -*-
-- Copyright (C) 2002-2016 Tristan Gingold
--
-- 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, see <gnu.org/licenses>.
with Ada.Unchecked_Conversion;
with Tables;
with PSL.Errors;
with PSL.Hash;
with PSL.Nodes_Meta; use PSL.Nodes_Meta;
package body PSL.Nodes is
-- Suppress the access check of the table base. This is really safe to
-- suppress this check because the table base cannot be null.
pragma Suppress (Access_Check);
-- Suppress the index check on the table.
-- Could be done during non-debug, since this may catch errors (reading
-- Null_Node.
--pragma Suppress (Index_Check);
type Format_Type is
(
Format_Short
);
-- Common fields are:
-- Flag1 : Boolean
-- Flag2 : Boolean
-- Flag3 : Boolean
-- Flag4 : Boolean
-- Flag5 : Boolean
-- Flag6 : Boolean
-- Nkind : Kind_Type
-- State1 : Bit2_Type
-- State2 : Bit2_Type
-- Location : Int32
-- Field1 : Node
-- Field2 : Node
-- Field3 : Node
-- Field4 : Node
-- Fields of Format_Short:
-- Field5 : Node
-- Field6 : Node
type State_Type is range 0 .. 3;
type Bit3_Type is range 0 .. 7;
type Node_Record is record
Kind : Nkind;
Flag1 : Boolean;
Flag2 : Boolean;
Flag3 : Boolean;
Flag4 : Boolean;
Flag5 : Boolean;
Flag6 : Boolean;
Flag7 : Boolean;
Flag8 : Boolean;
Flag9 : Boolean;
Flag10 : Boolean;
Flag11 : Boolean;
Flag12 : Boolean;
Flag13 : Boolean;
Flag14 : Boolean;
Flag15 : Boolean;
Flag16 : Boolean;
State1 : State_Type;
B3_1 : Bit3_Type;
Flag17 : Boolean;
Flag18 : Boolean;
Flag19 : Boolean;
Location : Int32;
Field1 : Node;
Field2 : Node;
Field3 : Node;
Field4 : Node;
Field5 : Node;
Field6 : Node;
end record;
pragma Pack (Node_Record);
for Node_Record'Size use 8 * 32;
package Nodet is new Tables
(Table_Component_Type => Node_Record,
Table_Index_Type => Node,
Table_Low_Bound => 1,
Table_Initial => 1024);
Init_Node : constant Node_Record := (Kind => N_Error,
Flag1 => False,
Flag2 => False,
State1 => 0,
B3_1 => 0,
Location => 0,
Field1 => 0,
Field2 => 0,
Field3 => 0,
Field4 => 0,
Field5 => 0,
Field6 => 0,
others => False);
Free_Nodes : Node := Null_Node;
function Get_Last_Node return Node is
begin
return Nodet.Last;
end Get_Last_Node;
function Node_To_Uns32 is new Ada.Unchecked_Conversion
(Source => Node, Target => Uns32);
function Uns32_To_Node is new Ada.Unchecked_Conversion
(Source => Uns32, Target => Node);
function Node_To_Int32 is new Ada.Unchecked_Conversion
(Source => Node, Target => Int32);
function Int32_To_Node is new Ada.Unchecked_Conversion
(Source => Int32, Target => Node);
function Node_To_NFA is new Ada.Unchecked_Conversion
(Source => Node, Target => NFA);
function NFA_To_Node is new Ada.Unchecked_Conversion
(Source => NFA, Target => Node);
function Node_To_HDL_Node is new Ada.Unchecked_Conversion
(Source => Node, Target => HDL_Node);
function HDL_Node_To_Node is new Ada.Unchecked_Conversion
(Source => HDL_Node, Target => Node);
procedure Set_Kind (N : Node; K : Nkind) is
begin
Nodet.Table (N).Kind := K;
end Set_Kind;
function Get_Kind (N : Node) return Nkind is
begin
return Nodet.Table (N).Kind;
end Get_Kind;
procedure Set_Flag1 (N : Node; Flag : Boolean) is
begin
Nodet.Table (N).Flag1 := Flag;
end Set_Flag1;
function Get_Flag1 (N : Node) return Boolean is
begin
return Nodet.Table (N).Flag1;
end Get_Flag1;
procedure Set_Flag2 (N : Node; Flag : Boolean) is
begin
Nodet.Table (N).Flag2 := Flag;
end Set_Flag2;
function Get_Flag2 (N : Node) return Boolean is
begin
return Nodet.Table (N).Flag2;
end Get_Flag2;
procedure Set_State1 (N : Node; S : State_Type) is
begin
Nodet.Table (N).State1 := S;
end Set_State1;
function Get_State1 (N : Node) return State_Type is
begin
return Nodet.Table (N).State1;
end Get_State1;
function Get_Location (N : Node) return Location_Type is
begin
return Location_Type (Nodet.Table (N).Location);
end Get_Location;
procedure Set_Location (N : Node; Loc : Location_Type) is
begin
Nodet.Table (N).Location := Int32 (Loc);
end Set_Location;
procedure Copy_Location (N : Node; Src : Node) is
begin
Set_Location (N, Get_Location (Src));
end Copy_Location;
procedure Set_Field1 (N : Node; V : Node) is
begin
Nodet.Table (N).Field1 := V;
end Set_Field1;
function Get_Field1 (N : Node) return Node is
begin
return Nodet.Table (N).Field1;
end Get_Field1;
procedure Set_Field2 (N : Node; V : Node) is
begin
Nodet.Table (N).Field2 := V;
end Set_Field2;
function Get_Field2 (N : Node) return Node is
begin
return Nodet.Table (N).Field2;
end Get_Field2;
function Get_Field3 (N : Node) return Node is
begin
return Nodet.Table (N).Field3;
end Get_Field3;
procedure Set_Field3 (N : Node; V : Node) is
begin
Nodet.Table (N).Field3 := V;
end Set_Field3;
function Get_Field4 (N : Node) return Node is
begin
return Nodet.Table (N).Field4;
end Get_Field4;
procedure Set_Field4 (N : Node; V : Node) is
begin
Nodet.Table (N).Field4 := V;
end Set_Field4;
function Get_Field5 (N : Node) return Node is
begin
return Nodet.Table (N).Field5;
end Get_Field5;
procedure Set_Field5 (N : Node; V : Node) is
begin
Nodet.Table (N).Field5 := V;
end Set_Field5;
function Get_Field6 (N : Node) return Node is
begin
return Nodet.Table (N).Field6;
end Get_Field6;
procedure Set_Field6 (N : Node; V : Node) is
begin
Nodet.Table (N).Field6 := V;
end Set_Field6;
function Get_Format (Kind : Nkind) return Format_Type;
pragma Unreferenced (Get_Format);
function Create_Node (Kind : Nkind) return Node
is
Res : Node;
begin
if Free_Nodes /= Null_Node then
Res := Free_Nodes;
Free_Nodes := Get_Field1 (Res);
else
Nodet.Increment_Last;
Res := Nodet.Last;
end if;
Nodet.Table (Res) := Init_Node;
Set_Kind (Res, Kind);
return Res;
end Create_Node;
procedure Free_Node (N : Node)
is
begin
Set_Kind (N, N_Error);
Set_Field1 (N, Free_Nodes);
Free_Nodes := N;
end Free_Node;
procedure Failed (Msg : String; N : Node)
is
begin
Errors.Error_Kind (Msg, N);
end Failed;
procedure Init (Loc : Location_Type) is
begin
pragma Assert (Loc /= No_Location);
Nodet.Init;
if Create_Node (N_False) /= False_Node then
raise Internal_Error;
end if;
Set_Location (False_Node, Loc);
if Create_Node (N_True) /= True_Node then
raise Internal_Error;
end if;
Set_Location (True_Node, Loc);
if Create_Node (N_Number) /= One_Node then
raise Internal_Error;
end if;
Set_Value (One_Node, 1);
Set_Location (One_Node, Loc);
if Create_Node (N_EOS) /= EOS_Node then
raise Internal_Error;
end if;
Set_Hash (EOS_Node, 0);
Set_Location (EOS_Node, Loc);
PSL.Hash.Init;
end Init;
function Get_Psl_Type (N : Node) return PSL_Types is
begin
case Get_Kind (N) is
when N_And_Prop
| N_Or_Prop
| N_Paren_Prop
| N_Log_Imp_Prop
| N_Log_Equiv_Prop
| N_Overlap_Imp_Seq
| N_Imp_Seq
| N_Always
| N_Never
| N_Eventually
| N_Next
| N_Next_E
| N_Next_A
| N_Next_Event
| N_Next_Event_A
| N_Next_Event_E
| N_Before
| N_Until
| N_Abort
| N_Async_Abort
| N_Sync_Abort
| N_Strong
| N_Property_Parameter
| N_Property_Instance =>
return Type_Property;
when N_Braced_SERE
| N_Concat_SERE
| N_Fusion_SERE
| N_Within_SERE
| N_Clocked_SERE
| N_And_Seq
| N_Or_Seq
| N_Match_And_Seq
| N_Star_Repeat_Seq
| N_Goto_Repeat_Seq
| N_Equal_Repeat_Seq
| N_Plus_Repeat_Seq
| N_Clock_Event
| N_Sequence_Instance
| N_Endpoint_Instance
| N_Sequence_Parameter =>
return Type_Sequence;
when N_Name =>
return Get_Psl_Type (Get_Decl (N));
when N_HDL_Expr =>
-- FIXME.
return Type_Boolean;
when N_Or_Bool
| N_And_Bool
| N_Not_Bool
| N_Imp_Bool
| N_Equiv_Bool
| N_False
| N_True
| N_Boolean_Parameter
| N_Paren_Bool
| N_HDL_Bool =>
return Type_Boolean;
when N_Number
| N_Const_Parameter
| N_Inf =>
return Type_Numeric;
when N_Vmode
| N_Vunit
| N_Vprop
| N_Hdl_Mod_Name
| N_Assert_Directive
| N_Sequence_Declaration
| N_Endpoint_Declaration
| N_Property_Declaration
| N_Actual
| N_Name_Decl
| N_Error
| N_EOS =>
PSL.Errors.Error_Kind ("get_psl_type", N);
end case;
end Get_Psl_Type;
procedure Reference_Failed (Msg : String; N : Node) is
begin
Failed (Msg, N);
end Reference_Failed;
pragma Unreferenced (Reference_Failed);
-- Subprograms
function Get_Format (Kind : Nkind) return Format_Type is
begin
case Kind is
when N_Error
| N_Vmode
| N_Vunit
| N_Vprop
| N_Hdl_Mod_Name
| N_Assert_Directive
| N_Property_Declaration
| N_Sequence_Declaration
| N_Endpoint_Declaration
| N_Const_Parameter
| N_Boolean_Parameter
| N_Property_Parameter
| N_Sequence_Parameter
| N_Sequence_Instance
| N_Endpoint_Instance
| N_Property_Instance
| N_Actual
| N_Clock_Event
| N_Always
| N_Never
| N_Eventually
| N_Strong
| N_Imp_Seq
| N_Overlap_Imp_Seq
| N_Log_Imp_Prop
| N_Log_Equiv_Prop
| N_Next
| N_Next_A
| N_Next_E
| N_Next_Event
| N_Next_Event_A
| N_Next_Event_E
| N_Abort
| N_Async_Abort
| N_Sync_Abort
| N_Until
| N_Before
| N_Or_Prop
| N_And_Prop
| N_Paren_Prop
| N_Braced_SERE
| N_Concat_SERE
| N_Fusion_SERE
| N_Within_SERE
| N_Clocked_SERE
| N_Match_And_Seq
| N_And_Seq
| N_Or_Seq
| N_Star_Repeat_Seq
| N_Goto_Repeat_Seq
| N_Plus_Repeat_Seq
| N_Equal_Repeat_Seq
| N_Paren_Bool
| N_Not_Bool
| N_And_Bool
| N_Or_Bool
| N_Imp_Bool
| N_Equiv_Bool
| N_HDL_Expr
| N_HDL_Bool
| N_False
| N_True
| N_EOS
| N_Name
| N_Name_Decl
| N_Inf
| N_Number =>
return Format_Short;
end case;
end Get_Format;
function Get_Identifier (N : Node) return Name_Id is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Identifier (Get_Kind (N)),
"no field Identifier");
return Name_Id'Val (Get_Field1 (N));
end Get_Identifier;
procedure Set_Identifier (N : Node; Id : Name_Id) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Identifier (Get_Kind (N)),
"no field Identifier");
Set_Field1 (N, Name_Id'Pos (Id));
end Set_Identifier;
function Get_Label (N : Node) return Name_Id is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Label (Get_Kind (N)),
"no field Label");
return Name_Id'Val (Get_Field1 (N));
end Get_Label;
procedure Set_Label (N : Node; Id : Name_Id) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Label (Get_Kind (N)),
"no field Label");
Set_Field1 (N, Name_Id'Pos (Id));
end Set_Label;
function Get_Chain (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Chain (Get_Kind (N)),
"no field Chain");
return Get_Field2 (N);
end Get_Chain;
procedure Set_Chain (N : Node; Chain : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Chain (Get_Kind (N)),
"no field Chain");
Set_Field2 (N, Chain);
end Set_Chain;
function Get_Instance (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Instance (Get_Kind (N)),
"no field Instance");
return Get_Field3 (N);
end Get_Instance;
procedure Set_Instance (N : Node; Instance : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Instance (Get_Kind (N)),
"no field Instance");
Set_Field3 (N, Instance);
end Set_Instance;
function Get_Prefix (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Prefix (Get_Kind (N)),
"no field Prefix");
return Get_Field2 (N);
end Get_Prefix;
procedure Set_Prefix (N : Node; Prefix : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Prefix (Get_Kind (N)),
"no field Prefix");
Set_Field2 (N, Prefix);
end Set_Prefix;
function Get_Item_Chain (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Item_Chain (Get_Kind (N)),
"no field Item_Chain");
return Get_Field4 (N);
end Get_Item_Chain;
procedure Set_Item_Chain (N : Node; Item : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Item_Chain (Get_Kind (N)),
"no field Item_Chain");
Set_Field4 (N, Item);
end Set_Item_Chain;
function Get_Property (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Property (Get_Kind (N)),
"no field Property");
return Get_Field4 (N);
end Get_Property;
procedure Set_Property (N : Node; Property : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Property (Get_Kind (N)),
"no field Property");
Set_Field4 (N, Property);
end Set_Property;
function Get_String (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_String (Get_Kind (N)),
"no field String");
return Get_Field3 (N);
end Get_String;
procedure Set_String (N : Node; Str : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_String (Get_Kind (N)),
"no field String");
Set_Field3 (N, Str);
end Set_String;
function Get_SERE (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_SERE (Get_Kind (N)),
"no field SERE");
return Get_Field1 (N);
end Get_SERE;
procedure Set_SERE (N : Node; S : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_SERE (Get_Kind (N)),
"no field SERE");
Set_Field1 (N, S);
end Set_SERE;
function Get_Left (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Left (Get_Kind (N)),
"no field Left");
return Get_Field1 (N);
end Get_Left;
procedure Set_Left (N : Node; S : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Left (Get_Kind (N)),
"no field Left");
Set_Field1 (N, S);
end Set_Left;
function Get_Right (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Right (Get_Kind (N)),
"no field Right");
return Get_Field2 (N);
end Get_Right;
procedure Set_Right (N : Node; S : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Right (Get_Kind (N)),
"no field Right");
Set_Field2 (N, S);
end Set_Right;
function Get_Sequence (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Sequence (Get_Kind (N)),
"no field Sequence");
return Get_Field3 (N);
end Get_Sequence;
procedure Set_Sequence (N : Node; S : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Sequence (Get_Kind (N)),
"no field Sequence");
Set_Field3 (N, S);
end Set_Sequence;
function Get_Strong_Flag (N : Node) return Boolean is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Strong_Flag (Get_Kind (N)),
"no field Strong_Flag");
return Get_Flag1 (N);
end Get_Strong_Flag;
procedure Set_Strong_Flag (N : Node; B : Boolean) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Strong_Flag (Get_Kind (N)),
"no field Strong_Flag");
Set_Flag1 (N, B);
end Set_Strong_Flag;
function Get_Inclusive_Flag (N : Node) return Boolean is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Inclusive_Flag (Get_Kind (N)),
"no field Inclusive_Flag");
return Get_Flag2 (N);
end Get_Inclusive_Flag;
procedure Set_Inclusive_Flag (N : Node; B : Boolean) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Inclusive_Flag (Get_Kind (N)),
"no field Inclusive_Flag");
Set_Flag2 (N, B);
end Set_Inclusive_Flag;
function Get_Has_Identifier_List (N : Node) return Boolean is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Has_Identifier_List (Get_Kind (N)),
"no field Has_Identifier_List");
return Get_Flag1 (N);
end Get_Has_Identifier_List;
procedure Set_Has_Identifier_List (N : Node; B : Boolean) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Has_Identifier_List (Get_Kind (N)),
"no field Has_Identifier_List");
Set_Flag1 (N, B);
end Set_Has_Identifier_List;
function Get_Low_Bound (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Low_Bound (Get_Kind (N)),
"no field Low_Bound");
return Get_Field1 (N);
end Get_Low_Bound;
procedure Set_Low_Bound (N : Node; S : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Low_Bound (Get_Kind (N)),
"no field Low_Bound");
Set_Field1 (N, S);
end Set_Low_Bound;
function Get_High_Bound (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_High_Bound (Get_Kind (N)),
"no field High_Bound");
return Get_Field2 (N);
end Get_High_Bound;
procedure Set_High_Bound (N : Node; S : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_High_Bound (Get_Kind (N)),
"no field High_Bound");
Set_Field2 (N, S);
end Set_High_Bound;
function Get_Number (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Number (Get_Kind (N)),
"no field Number");
return Get_Field1 (N);
end Get_Number;
procedure Set_Number (N : Node; S : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Number (Get_Kind (N)),
"no field Number");
Set_Field1 (N, S);
end Set_Number;
function Get_Value (N : Node) return Uns32 is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Value (Get_Kind (N)),
"no field Value");
return Node_To_Uns32 (Get_Field1 (N));
end Get_Value;
procedure Set_Value (N : Node; Val : Uns32) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Value (Get_Kind (N)),
"no field Value");
Set_Field1 (N, Uns32_To_Node (Val));
end Set_Value;
function Get_Boolean (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Boolean (Get_Kind (N)),
"no field Boolean");
return Get_Field3 (N);
end Get_Boolean;
procedure Set_Boolean (N : Node; B : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Boolean (Get_Kind (N)),
"no field Boolean");
Set_Field3 (N, B);
end Set_Boolean;
function Get_Decl (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Decl (Get_Kind (N)),
"no field Decl");
return Get_Field2 (N);
end Get_Decl;
procedure Set_Decl (N : Node; D : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Decl (Get_Kind (N)),
"no field Decl");
Set_Field2 (N, D);
end Set_Decl;
function Get_HDL_Node (N : Node) return HDL_Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_HDL_Node (Get_Kind (N)),
"no field HDL_Node");
return Node_To_HDL_Node (Get_Field1 (N));
end Get_HDL_Node;
procedure Set_HDL_Node (N : Node; H : HDL_Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_HDL_Node (Get_Kind (N)),
"no field HDL_Node");
Set_Field1 (N, HDL_Node_To_Node (H));
end Set_HDL_Node;
function Get_Hash (N : Node) return Uns32 is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Hash (Get_Kind (N)),
"no field Hash");
return Node_To_Uns32 (Get_Field5 (N));
end Get_Hash;
procedure Set_Hash (N : Node; E : Uns32) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Hash (Get_Kind (N)),
"no field Hash");
Set_Field5 (N, Uns32_To_Node (E));
end Set_Hash;
function Get_Hash_Link (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Hash_Link (Get_Kind (N)),
"no field Hash_Link");
return Get_Field6 (N);
end Get_Hash_Link;
procedure Set_Hash_Link (N : Node; E : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Hash_Link (Get_Kind (N)),
"no field Hash_Link");
Set_Field6 (N, E);
end Set_Hash_Link;
function Get_HDL_Index (N : Node) return Int32 is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_HDL_Index (Get_Kind (N)),
"no field HDL_Index");
return Node_To_Int32 (Get_Field2 (N));
end Get_HDL_Index;
procedure Set_HDL_Index (N : Node; Idx : Int32) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_HDL_Index (Get_Kind (N)),
"no field HDL_Index");
Set_Field2 (N, Int32_To_Node (Idx));
end Set_HDL_Index;
function Get_HDL_Hash (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_HDL_Hash (Get_Kind (N)),
"no field HDL_Hash");
return Get_Field5 (N);
end Get_HDL_Hash;
procedure Set_HDL_Hash (N : Node; H : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_HDL_Hash (Get_Kind (N)),
"no field HDL_Hash");
Set_Field5 (N, H);
end Set_HDL_Hash;
function Get_Presence (N : Node) return PSL_Presence_Kind is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Presence (Get_Kind (N)),
"no field Presence");
return PSL_Presence_Kind'Val (Get_State1 (N));
end Get_Presence;
procedure Set_Presence (N : Node; P : PSL_Presence_Kind) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Presence (Get_Kind (N)),
"no field Presence");
Set_State1 (N, PSL_Presence_Kind'Pos (P));
end Set_Presence;
function Get_NFA (N : Node) return NFA is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_NFA (Get_Kind (N)),
"no field NFA");
return Node_To_NFA (Get_Field5 (N));
end Get_NFA;
procedure Set_NFA (N : Node; P : NFA) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_NFA (Get_Kind (N)),
"no field NFA");
Set_Field5 (N, NFA_To_Node (P));
end Set_NFA;
function Get_Parameter_List (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Parameter_List (Get_Kind (N)),
"no field Parameter_List");
return Get_Field5 (N);
end Get_Parameter_List;
procedure Set_Parameter_List (N : Node; E : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Parameter_List (Get_Kind (N)),
"no field Parameter_List");
Set_Field5 (N, E);
end Set_Parameter_List;
function Get_Actual (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Actual (Get_Kind (N)),
"no field Actual");
return Get_Field3 (N);
end Get_Actual;
procedure Set_Actual (N : Node; E : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Actual (Get_Kind (N)),
"no field Actual");
Set_Field3 (N, E);
end Set_Actual;
function Get_Formal (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Formal (Get_Kind (N)),
"no field Formal");
return Get_Field4 (N);
end Get_Formal;
procedure Set_Formal (N : Node; E : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Formal (Get_Kind (N)),
"no field Formal");
Set_Field4 (N, E);
end Set_Formal;
function Get_Declaration (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Declaration (Get_Kind (N)),
"no field Declaration");
return Get_Field1 (N);
end Get_Declaration;
procedure Set_Declaration (N : Node; Decl : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Declaration (Get_Kind (N)),
"no field Declaration");
Set_Field1 (N, Decl);
end Set_Declaration;
function Get_Association_Chain (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Association_Chain (Get_Kind (N)),
"no field Association_Chain");
return Get_Field2 (N);
end Get_Association_Chain;
procedure Set_Association_Chain (N : Node; Chain : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Association_Chain (Get_Kind (N)),
"no field Association_Chain");
Set_Field2 (N, Chain);
end Set_Association_Chain;
function Get_Global_Clock (N : Node) return Node is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Global_Clock (Get_Kind (N)),
"no field Global_Clock");
return Get_Field3 (N);
end Get_Global_Clock;
procedure Set_Global_Clock (N : Node; Clock : Node) is
begin
pragma Assert (N /= Null_Node);
pragma Assert (Has_Global_Clock (Get_Kind (N)),
"no field Global_Clock");
Set_Field3 (N, Clock);
end Set_Global_Clock;
end PSL.Nodes;
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