-- Common operations on nodes. -- Copyright (C) 2002, 2003, 2004, 2005 Tristan Gingold -- -- GHDL is free software; you can redistribute it and/or modify it under -- the terms of the GNU General Public License as published by the Free -- Software Foundation; either version 2, or (at your option) any later -- version. -- -- GHDL is distributed in the hope that it will be useful, but WITHOUT ANY -- WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- -- You should have received a copy of the GNU General Public License -- along with GHDL; see the file COPYING. If not, write to the Free -- Software Foundation, 59 Temple Place - Suite 330, Boston, MA -- 02111-1307, USA. with Scan; use Scan; with Tokens; use Tokens; with Errorout; use Errorout; with Name_Table; with Str_Table; with Std_Names; use Std_Names; with Flags; use Flags; package body Iirs_Utils is -- Transform the current token into an iir literal. -- The current token must be either a character or an identifier. function Current_Text return Iir is Res: Iir; begin case Current_Token is when Tok_Identifier => Res := Create_Iir (Iir_Kind_Simple_Name); when Tok_Character => Res := Create_Iir (Iir_Kind_Character_Literal); when others => raise Internal_Error; end case; Set_Identifier (Res, Current_Identifier); Invalidate_Current_Identifier; Invalidate_Current_Token; Set_Location (Res, Get_Token_Location); return Res; end Current_Text; function Get_Operator_Name (Op : Iir) return Name_Id is begin case Get_Kind (Op) is when Iir_Kind_And_Operator => return Name_And; when Iir_Kind_Or_Operator => return Name_Or; when Iir_Kind_Nand_Operator => return Name_Nand; when Iir_Kind_Nor_Operator => return Name_Nor; when Iir_Kind_Xor_Operator => return Name_Xor; when Iir_Kind_Xnor_Operator => return Name_Xnor; when Iir_Kind_Equality_Operator => return Name_Op_Equality; when Iir_Kind_Inequality_Operator => return Name_Op_Inequality; when Iir_Kind_Less_Than_Operator => return Name_Op_Less; when Iir_Kind_Less_Than_Or_Equal_Operator => return Name_Op_Less_Equal; when Iir_Kind_Greater_Than_Operator => return Name_Op_Greater; when Iir_Kind_Greater_Than_Or_Equal_Operator => return Name_Op_Greater_Equal; when Iir_Kind_Sll_Operator => return Name_Sll; when Iir_Kind_Sla_Operator => return Name_Sla; when Iir_Kind_Srl_Operator => return Name_Srl; when Iir_Kind_Sra_Operator => return Name_Sra; when Iir_Kind_Rol_Operator => return Name_Rol; when Iir_Kind_Ror_Operator => return Name_Ror; when Iir_Kind_Addition_Operator => return Name_Op_Plus; when Iir_Kind_Substraction_Operator => return Name_Op_Minus; when Iir_Kind_Concatenation_Operator => return Name_Op_Concatenation; when Iir_Kind_Multiplication_Operator => return Name_Op_Mul; when Iir_Kind_Division_Operator => return Name_Op_Div; when Iir_Kind_Modulus_Operator => return Name_Mod; when Iir_Kind_Remainder_Operator => return Name_Rem; when Iir_Kind_Exponentiation_Operator => return Name_Op_Exp; when Iir_Kind_Not_Operator => return Name_Not; when Iir_Kind_Negation_Operator => return Name_Op_Minus; when Iir_Kind_Identity_Operator => return Name_Op_Plus; when Iir_Kind_Absolute_Operator => return Name_Abs; when others => raise Internal_Error; end case; end Get_Operator_Name; function Get_Longuest_Static_Prefix (Expr: Iir) return Iir is Adecl: Iir; begin Adecl := Expr; loop case Get_Kind (Adecl) is when Iir_Kind_Variable_Declaration | Iir_Kind_Variable_Interface_Declaration => return Adecl; when Iir_Kind_Constant_Declaration | Iir_Kind_Constant_Interface_Declaration => return Adecl; when Iir_Kind_Signal_Declaration | Iir_Kind_Guard_Signal_Declaration | Iir_Kind_Signal_Interface_Declaration => return Adecl; when Iir_Kind_Object_Alias_Declaration => -- LRM 4.3.3.1 Object Aliases -- 2. The name must be a static name [...] return Adecl; when Iir_Kind_Slice_Name | Iir_Kind_Indexed_Name | Iir_Kind_Selected_Element => if Get_Name_Staticness (Adecl) >= Globally then return Adecl; else Adecl := Get_Prefix (Adecl); end if; when Iir_Kind_Simple_Name | Iir_Kind_Selected_Name => Adecl := Get_Named_Entity (Adecl); when Iir_Kind_Type_Conversion => return Null_Iir; when others => Error_Kind ("get_longuest_static_prefix", Adecl); end case; end loop; end Get_Longuest_Static_Prefix; function Get_Object_Prefix (Decl: Iir) return Iir is Adecl: Iir; begin Adecl := Decl; loop case Get_Kind (Adecl) is when Iir_Kind_Variable_Declaration | Iir_Kind_Variable_Interface_Declaration | Iir_Kind_Constant_Declaration | Iir_Kind_Constant_Interface_Declaration | Iir_Kind_Signal_Declaration | Iir_Kind_Guard_Signal_Declaration | Iir_Kind_Signal_Interface_Declaration | Iir_Kind_File_Declaration | Iir_Kind_File_Interface_Declaration | Iir_Kind_Iterator_Declaration => return Adecl; when Iir_Kind_Object_Alias_Declaration => Adecl := Get_Name (Adecl); when Iir_Kind_Indexed_Name | Iir_Kind_Slice_Name | Iir_Kind_Selected_Element | Iir_Kind_Selected_By_All_Name => Adecl := Get_Base_Name (Adecl); when Iir_Kinds_Literal | Iir_Kind_Enumeration_Literal | Iir_Kinds_Monadic_Operator | Iir_Kinds_Dyadic_Operator | Iir_Kind_Function_Call | Iir_Kind_Qualified_Expression | Iir_Kind_Type_Conversion | Iir_Kind_Allocator_By_Expression | Iir_Kind_Allocator_By_Subtype | Iir_Kinds_Attribute | Iir_Kind_Attribute_Value | Iir_Kind_Aggregate | Iir_Kind_Simple_Aggregate | Iir_Kind_Dereference | Iir_Kind_Implicit_Dereference | Iir_Kind_Unit_Declaration => return Adecl; when Iir_Kind_Simple_Name | Iir_Kind_Selected_Name => Adecl := Get_Named_Entity (Adecl); when others => Error_Kind ("get_object_prefix", Adecl); end case; end loop; end Get_Object_Prefix; function Find_Name_In_List (List: Iir_List; Lit: Name_Id) return Iir is El: Iir; Ident: Name_Id; begin for I in Natural loop El := Get_Nth_Element (List, I); exit when El = Null_Iir; Ident := Get_Identifier (El); if Ident = Lit then return El; end if; end loop; return Null_Iir; end Find_Name_In_List; function Find_Name_In_Chain (Chain: Iir; Lit: Name_Id) return Iir is El: Iir := Chain; begin while El /= Null_Iir loop if Get_Identifier (El) = Lit then return El; end if; El := Get_Chain (El); end loop; return Null_Iir; end Find_Name_In_Chain; function Is_In_Chain (Chain : Iir; El : Iir) return Boolean is Chain_El : Iir; begin Chain_El := Chain; while Chain_El /= Null_Iir loop if Chain_El = El then return True; end if; Chain_El := Get_Chain (Chain_El); end loop; return False; end Is_In_Chain; procedure Add_Dependence (Target: Iir_Design_Unit; Unit: Iir) is begin if Unit = Target then return; end if; Add_Element (Get_Dependence_List (Target), Unit); end Add_Dependence; procedure Clear_Instantiation_Configuration_Vhdl87 (Parent : Iir; In_Generate : Boolean; Full : Boolean) is El : Iir; Prev : Iir; begin El := Get_Concurrent_Statement_Chain (Parent); while El /= Null_Iir loop case Get_Kind (El) is when Iir_Kind_Component_Instantiation_Statement => if In_Generate and not Full then Prev := Get_Component_Configuration (El); if Prev /= Null_Iir then case Get_Kind (Prev) is when Iir_Kind_Configuration_Specification => -- Keep it. null; when Iir_Kind_Component_Configuration => Set_Component_Configuration (El, Null_Iir); when others => Error_Kind ("clear_instantiation_configuration_vhdl87", Prev); end case; end if; else Set_Component_Configuration (El, Null_Iir); end if; when Iir_Kind_Generate_Statement => Set_Generate_Block_Configuration (El, Null_Iir); -- Clear inside a generate statement. Clear_Instantiation_Configuration_Vhdl87 (El, True, Full); when Iir_Kind_Block_Statement => Set_Block_Block_Configuration (El, Null_Iir); when others => null; end case; El := Get_Chain (El); end loop; end Clear_Instantiation_Configuration_Vhdl87; procedure Clear_Instantiation_Configuration (Parent : Iir; Full : Boolean) is El : Iir; begin if False and then Flags.Vhdl_Std = Vhdl_87 then Clear_Instantiation_Configuration_Vhdl87 (Parent, Get_Kind (Parent) = Iir_Kind_Generate_Statement, Full); else El := Get_Concurrent_Statement_Chain (Parent); while El /= Null_Iir loop case Get_Kind (El) is when Iir_Kind_Component_Instantiation_Statement => Set_Component_Configuration (El, Null_Iir); when Iir_Kind_Generate_Statement => Set_Generate_Block_Configuration (El, Null_Iir); when Iir_Kind_Block_Statement => Set_Block_Block_Configuration (El, Null_Iir); when others => null; end case; El := Get_Chain (El); end loop; end if; end Clear_Instantiation_Configuration; function Get_String_Fat_Acc (Str : Iir) return String_Fat_Acc is begin return Str_Table.Get_String_Fat_Acc (Get_String_Id (Str)); end Get_String_Fat_Acc; function Get_String_Length (Str : Iir) return Natural is begin return Natural (Nat32'(Get_String_Length (Str))); end Get_String_Length; -- Get identifier of NODE as a string. function Image_Identifier (Node : Iir) return String is begin return Name_Table.Image (Iirs.Get_Identifier (Node)); end Image_Identifier; function Image_String_Lit (Str : Iir) return String is Ptr : String_Fat_Acc; Len : Natural; begin Ptr := Get_String_Fat_Acc (Str); Len := Get_String_Length (Str); return Ptr (1 .. Len); end Image_String_Lit; procedure Create_Range_Constraint_For_Enumeration_Type (Def : Iir_Enumeration_Type_Definition) is Range_Expr : Iir_Range_Expression; Literal_List: Iir_List; begin Literal_List := Get_Enumeration_Literal_List (Def); -- Create a constraint. Range_Expr := Create_Iir (Iir_Kind_Range_Expression); Location_Copy (Range_Expr, Def); Set_Type (Range_Expr, Def); Set_Direction (Range_Expr, Iir_To); Set_Left_Limit (Range_Expr, Get_First_Element (Literal_List)); Set_Right_Limit (Range_Expr, Get_Last_Element (Literal_List)); Set_Expr_Staticness (Range_Expr, Locally); Set_Range_Constraint (Def, Range_Expr); end Create_Range_Constraint_For_Enumeration_Type; procedure Free_Old_Iir (Node: in Iir) is N : Iir; begin N := Node; Free_Iir (N); end Free_Old_Iir; procedure Free_Name (Node : Iir) is N : Iir; N1 : Iir; begin if Node = Null_Iir then return; end if; N := Node; case Get_Kind (N) is when Iir_Kind_Simple_Name | Iir_Kind_Character_Literal | Iir_Kind_String_Literal | Iir_Kind_Subtype_Definition => Free_Iir (N); when Iir_Kind_Selected_Name | Iir_Kind_Parenthesis_Name | Iir_Kind_Selected_By_All_Name => N1 := Get_Prefix (N); Free_Iir (N); Free_Name (N1); when Iir_Kind_Library_Declaration | Iir_Kind_Package_Declaration | Iir_Kind_Entity_Declaration | Iir_Kind_Architecture_Declaration | Iir_Kind_Design_Unit | Iir_Kinds_Concurrent_Statement | Iir_Kinds_Sequential_Statement => return; when others => Error_Kind ("free_name", Node); --Free_Iir (N); end case; end Free_Name; procedure Free_Recursive_List (List : Iir_List) is El : Iir; begin for I in Natural loop El := Get_Nth_Element (List, I); exit when El = Null_Iir; Free_Recursive (El); end loop; end Free_Recursive_List; procedure Free_Recursive (Node : Iir; Free_List : Boolean := False) is N : Iir; begin if Node = Null_Iir then return; end if; N := Node; case Get_Kind (N) is when Iir_Kind_Library_Declaration => return; when Iir_Kind_Simple_Name | Iir_Kind_Parenthesis_Name | Iir_Kind_Character_Literal => null; when Iir_Kind_Enumeration_Literal => return; when Iir_Kind_Selected_Name => Free_Recursive (Get_Prefix (N)); when Iir_Kind_Constant_Interface_Declaration | Iir_Kind_Variable_Interface_Declaration | Iir_Kind_Signal_Interface_Declaration => Free_Recursive (Get_Type (N)); Free_Recursive (Get_Default_Value (N)); when Iir_Kind_Range_Expression => Free_Recursive (Get_Left_Limit (N)); Free_Recursive (Get_Right_Limit (N)); when Iir_Kind_Subtype_Definition => Free_Recursive (Get_Base_Type (N)); when Iir_Kind_Integer_Literal => null; when Iir_Kind_Package_Declaration | Iir_Kind_Package_Body | Iir_Kind_Entity_Declaration | Iir_Kind_Configuration_Declaration => null; when Iir_Kind_File_Type_Definition | Iir_Kind_Access_Type_Definition | Iir_Kind_Array_Type_Definition | Iir_Kind_Enumeration_Type_Definition | Iir_Kind_Integer_Subtype_Definition | Iir_Kind_Enumeration_Subtype_Definition | Iir_Kind_Physical_Subtype_Definition => return; when Iir_Kind_Architecture_Declaration => Free_Recursive (Get_Entity (N)); when Iir_Kind_Proxy => null; when Iir_Kind_Overload_List => Free_Recursive_List (Get_Overload_List (N)); if not Free_List then return; end if; when Iir_Kind_Array_Subtype_Definition => Free_Recursive_List (Get_Index_List (N)); Free_Recursive (Get_Base_Type (N)); when Iir_Kind_Entity_Aspect_Entity => Free_Recursive (Get_Entity (N)); Free_Recursive (Get_Architecture (N)); when others => Error_Kind ("free_recursive", Node); end case; Free_Iir (N); end Free_Recursive; function Get_Predefined_Function_Name (Func : Iir_Predefined_Functions) return String is begin return Iir_Predefined_Functions'Image (Func); end Get_Predefined_Function_Name; procedure Clear_Seen_Flag (Top : Iir) is Callees_List : Iir_Callees_List; El: Iir; begin if Get_Seen_Flag (Top) then Set_Seen_Flag (Top, False); Callees_List := Get_Callees_List (Top); if Callees_List /= Null_Iir_List then for I in Natural loop El := Get_Nth_Element (Callees_List, I); exit when El = Null_Iir; if Get_Seen_Flag (El) = False then Clear_Seen_Flag (El); end if; end loop; end if; end if; end Clear_Seen_Flag; function Is_Anonymous_Type_Definition (Def : Iir) return Boolean is begin return Get_Type_Declarator (Def) = Null_Iir; end Is_Anonymous_Type_Definition; function Is_Fully_Constrained_Type (Def : Iir) return Boolean is begin return Get_Kind (Def) not in Iir_Kinds_Composite_Type_Definition or else Get_Constraint_State (Def) = Fully_Constrained; end Is_Fully_Constrained_Type; function Is_Same_Profile (L, R: Iir) return Boolean is L1, R1 : Iir; L_Kind, R_Kind : Iir_Kind; El_L, El_R : Iir; begin L_Kind := Get_Kind (L); if L_Kind = Iir_Kind_Non_Object_Alias_Declaration then L1 := Get_Name (L); L_Kind := Get_Kind (L1); else L1 := L; end if; R_Kind := Get_Kind (R); if R_Kind = Iir_Kind_Non_Object_Alias_Declaration then R1 := Get_Name (R); R_Kind := Get_Kind (R1); else R1 := R; end if; -- Check L and R are both of the same 'kind'. -- Also the return profile for functions. if L_Kind in Iir_Kinds_Function_Declaration and then R_Kind in Iir_Kinds_Function_Declaration then if Get_Base_Type (Get_Return_Type (L1)) /= Get_Base_Type (Get_Return_Type (R1)) then return False; end if; elsif L_Kind in Iir_Kinds_Procedure_Declaration and then R_Kind in Iir_Kinds_Procedure_Declaration then null; elsif L_Kind = Iir_Kind_Enumeration_Literal and then R_Kind = Iir_Kind_Enumeration_Literal then return Get_Type (L1) = Get_Type (R1); else -- Kind mismatch. return False; end if; -- Check parameters profile. El_L := Get_Interface_Declaration_Chain (L1); El_R := Get_Interface_Declaration_Chain (R1); loop exit when El_L = Null_Iir and El_R = Null_Iir; if El_L = Null_Iir or El_R = Null_Iir then return False; end if; if Get_Base_Type (Get_Type (El_L)) /= Get_Base_Type (Get_Type (El_R)) then return False; end if; El_L := Get_Chain (El_L); El_R := Get_Chain (El_R); end loop; return True; end Is_Same_Profile; -- From a block_specification, returns the block. function Get_Block_From_Block_Specification (Block_Spec : Iir) return Iir is Res : Iir; begin case Get_Kind (Block_Spec) is when Iir_Kind_Design_Unit => Res := Get_Library_Unit (Block_Spec); if Get_Kind (Res) /= Iir_Kind_Architecture_Declaration then raise Internal_Error; end if; return Res; when Iir_Kind_Block_Statement | Iir_Kind_Architecture_Declaration | Iir_Kind_Generate_Statement => return Block_Spec; when Iir_Kind_Indexed_Name | Iir_Kind_Selected_Name | Iir_Kind_Slice_Name => return Get_Prefix (Block_Spec); when others => Error_Kind ("get_block_from_block_specification", Block_Spec); return Null_Iir; end case; end Get_Block_From_Block_Specification; function Get_String_Type_Bound_Type (Sub_Type : Iir) return Iir is begin if Get_Kind (Sub_Type) /= Iir_Kind_Array_Subtype_Definition then Error_Kind ("get_string_type_bound_type", Sub_Type); end if; return Get_First_Element (Get_Index_Subtype_List (Sub_Type)); end Get_String_Type_Bound_Type; procedure Get_Low_High_Limit (Arange : Iir_Range_Expression; Low, High : out Iir) is begin case Get_Direction (Arange) is when Iir_To => Low := Get_Left_Limit (Arange); High := Get_Right_Limit (Arange); when Iir_Downto => High := Get_Left_Limit (Arange); Low := Get_Right_Limit (Arange); end case; end Get_Low_High_Limit; function Get_Low_Limit (Arange : Iir_Range_Expression) return Iir is begin case Get_Direction (Arange) is when Iir_To => return Get_Left_Limit (Arange); when Iir_Downto => return Get_Right_Limit (Arange); end case; end Get_Low_Limit; function Get_High_Limit (Arange : Iir_Range_Expression) return Iir is begin case Get_Direction (Arange) is when Iir_To => return Get_Right_Limit (Arange); when Iir_Downto => return Get_Left_Limit (Arange); end case; end Get_High_Limit; function Is_Unidim_Array_Type (A_Type : Iir) return Boolean is Base_Type : constant Iir := Get_Base_Type (A_Type); begin if Get_Kind (Base_Type) = Iir_Kind_Array_Type_Definition and then Get_Nbr_Elements (Get_Index_Subtype_List (Base_Type)) = 1 then return True; else return False; end if; end Is_Unidim_Array_Type; function Is_Range_Attribute_Name (Expr : Iir) return Boolean is Attr : Iir; Id : Name_Id; begin if Get_Kind (Expr) = Iir_Kind_Parenthesis_Name then Attr := Get_Prefix (Expr); else Attr := Expr; end if; if Get_Kind (Attr) /= Iir_Kind_Attribute_Name then return False; end if; Id := Get_Attribute_Identifier (Attr); return Id = Name_Range or Id = Name_Reverse_Range; end Is_Range_Attribute_Name; function Create_Array_Subtype (Arr_Type : Iir; Loc : Location_Type) return Iir_Array_Subtype_Definition is Res : Iir_Array_Subtype_Definition; Base_Type : Iir; begin Res := Create_Iir (Iir_Kind_Array_Subtype_Definition); Set_Location (Res, Loc); Base_Type := Get_Base_Type (Arr_Type); Set_Base_Type (Res, Base_Type); Set_Element_Subtype (Res, Get_Element_Subtype (Base_Type)); if Get_Kind (Arr_Type) /= Iir_Kind_Array_Type_Definition then Set_Resolution_Function (Res, Get_Resolution_Function (Arr_Type)); end if; Set_Resolved_Flag (Res, Get_Resolved_Flag (Arr_Type)); Set_Signal_Type_Flag (Res, Get_Signal_Type_Flag (Arr_Type)); Set_Type_Staticness (Res, Get_Type_Staticness (Base_Type)); Set_Index_Subtype_List (Res, Create_Iir_List); return Res; end Create_Array_Subtype; function Is_Subprogram_Method (Spec : Iir) return Boolean is begin case Get_Kind (Get_Parent (Spec)) is when Iir_Kind_Protected_Type_Declaration | Iir_Kind_Protected_Type_Body => return True; when others => return False; end case; end Is_Subprogram_Method; function Get_Method_Type (Spec : Iir) return Iir is Parent : Iir; begin Parent := Get_Parent (Spec); case Get_Kind (Parent) is when Iir_Kind_Protected_Type_Declaration => return Parent; when Iir_Kind_Protected_Type_Body => return Get_Protected_Type_Declaration (Parent); when others => return Null_Iir; end case; end Get_Method_Type; function Create_Error_Expr (Orig : Iir; Atype : Iir) return Iir is Res : Iir; begin Res := Create_Iir (Iir_Kind_Error); Set_Expr_Staticness (Res, Locally); Set_Type (Res, Atype); Set_Error_Origin (Res, Orig); Location_Copy (Res, Orig); return Res; end Create_Error_Expr; function Create_Error_Type (Orig : Iir) return Iir is Res : Iir; begin Res := Create_Iir (Iir_Kind_Error); --Set_Expr_Staticness (Res, Locally); Set_Base_Type (Res, Res); Set_Error_Origin (Res, Orig); Location_Copy (Res, Orig); Set_Type_Declarator (Res, Null_Iir); Set_Resolved_Flag (Res, True); Set_Signal_Type_Flag (Res, True); return Res; end Create_Error_Type; function Get_Associated_Formal (Assoc : Iir) return Iir is Formal : Iir; begin Formal := Get_Formal (Assoc); case Get_Kind (Formal) is when Iir_Kind_Simple_Name | Iir_Kind_Selected_Name => Formal := Get_Named_Entity (Formal); when others => null; end case; return Get_Base_Name (Formal); end Get_Associated_Formal; -- Extract the entity from ASPECT. -- Note: if ASPECT is a component declaration, returns ASPECT. function Get_Entity_From_Entity_Aspect (Aspect : Iir) return Iir is Inst : Iir; begin case Get_Kind (Aspect) is when Iir_Kind_Component_Declaration => return Aspect; when Iir_Kind_Entity_Aspect_Entity => return Get_Library_Unit (Get_Entity (Aspect)); when Iir_Kind_Entity_Aspect_Configuration => Inst := Get_Library_Unit (Get_Configuration (Aspect)); return Get_Library_Unit (Get_Entity (Inst)); when Iir_Kind_Entity_Aspect_Open => return Null_Iir; when others => Error_Kind ("get_entity_from_entity_aspect", Aspect); end case; end Get_Entity_From_Entity_Aspect; function Get_Physical_Literal_Value (Lit : Iir) return Iir_Int64 is begin case Get_Kind (Lit) is when Iir_Kind_Physical_Int_Literal => return Get_Value (Lit) * Get_Value (Get_Physical_Unit_Value (Get_Unit_Name (Lit))); when Iir_Kind_Unit_Declaration => return Get_Value (Get_Physical_Unit_Value (Lit)); when Iir_Kind_Physical_Fp_Literal => return Iir_Int64 (Get_Fp_Value (Lit) * Iir_Fp64 (Get_Value (Get_Physical_Unit_Value (Get_Unit_Name (Lit))))); when others => Error_Kind ("get_physical_literal_value", Lit); end case; end Get_Physical_Literal_Value; function Is_Signal_Object (Name : Iir) return Boolean is Adecl: Iir; begin Adecl := Get_Base_Name (Name); loop case Get_Kind (Adecl) is when Iir_Kind_Variable_Declaration | Iir_Kind_Variable_Interface_Declaration | Iir_Kind_Constant_Declaration | Iir_Kind_Constant_Interface_Declaration | Iir_Kind_Implicit_Dereference | Iir_Kind_Dereference | Iir_Kind_Attribute_Value | Iir_Kind_Function_Call => return False; when Iir_Kind_Signal_Declaration | Iir_Kind_Signal_Interface_Declaration | Iir_Kind_Guard_Signal_Declaration | Iir_Kinds_Signal_Attribute => return True; when Iir_Kind_Object_Alias_Declaration => Adecl := Get_Base_Name (Get_Name (Adecl)); when others => Error_Kind ("is_signal_object", Adecl); end case; end loop; end Is_Signal_Object; end Iirs_Utils;