-- std.standard package declarations. -- 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 Files_Map; with Name_Table; with Str_Table; with Std_Names; use Std_Names; with Flags; use Flags; with Vhdl.Utils; with Vhdl.Sem_Utils; with Vhdl.Nodes_Utils; use Vhdl.Nodes_Utils; package body Vhdl.Std_Package is type Bound_Array is array (Boolean) of Int64; Low_Bound : constant Bound_Array := (False => -(2 ** 31), True => -(2 ** 63)); High_Bound : constant Bound_Array := (False => (2 ** 31) - 1, True => (2 ** 63) - 1); Std_Filename : Name_Id := Null_Identifier; -- Could be public. Time_Fs_Unit: Iir_Unit_Declaration; Time_Ps_Unit: Iir_Unit_Declaration; Time_Ns_Unit: Iir_Unit_Declaration; Time_Us_Unit: Iir_Unit_Declaration; Time_Ms_Unit: Iir_Unit_Declaration; Time_Sec_Unit: Iir_Unit_Declaration; Time_Min_Unit: Iir_Unit_Declaration; Time_Hr_Unit: Iir_Unit_Declaration; function Create_Std_Iir (Kind : Iir_Kind) return Iir is Res : Iir; begin Res := Create_Iir (Kind); Set_Location (Res, Std_Location); return Res; end Create_Std_Iir; function Create_Std_Decl (Kind : Iir_Kind) return Iir is Res : Iir; begin Res := Create_Std_Iir (Kind); Set_Parent (Res, Standard_Package); return Res; end Create_Std_Decl; function Create_Std_Type_Mark (Ref : Iir) return Iir is Res : Iir; begin Res := Utils.Build_Simple_Name (Ref, Std_Location); Set_Type (Res, Get_Type (Ref)); return Res; end Create_Std_Type_Mark; procedure Create_First_Nodes is procedure Create_Known_Iir (Kind : Iir_Kind; Val : Iir) is begin if Create_Std_Iir (Kind) /= Val then raise Internal_Error; end if; end Create_Known_Iir; begin Std_Filename := Name_Table.Get_Identifier ("*std_standard*"); Std_Source_File := Files_Map.Create_Virtual_Source_File (Std_Filename); Std_Location := Files_Map.File_To_Location (Std_Source_File); if Create_Iir_Error /= Error_Mark then raise Internal_Error; end if; Set_Location (Error_Mark, Std_Location); Set_Signal_Type_Flag (Error_Mark, True); Create_Known_Iir (Iir_Kind_Integer_Type_Definition, Universal_Integer_Type_Definition); Create_Known_Iir (Iir_Kind_Floating_Type_Definition, Universal_Real_Type_Definition); Create_Known_Iir (Iir_Kind_Integer_Type_Definition, Convertible_Integer_Type_Definition); Create_Known_Iir (Iir_Kind_Floating_Type_Definition, Convertible_Real_Type_Definition); Create_Known_Iir (Iir_Kind_Wildcard_Type_Definition, Wildcard_Any_Type); Create_Known_Iir (Iir_Kind_Wildcard_Type_Definition, Wildcard_Any_Aggregate_Type); Create_Known_Iir (Iir_Kind_Wildcard_Type_Definition, Wildcard_Any_String_Type); Create_Known_Iir (Iir_Kind_Wildcard_Type_Definition, Wildcard_Any_Access_Type); Create_Known_Iir (Iir_Kind_Wildcard_Type_Definition, Wildcard_Any_Integer_Type); Create_Known_Iir (Iir_Kind_Wildcard_Type_Definition, Wildcard_Psl_Bit_Type); Create_Known_Iir (Iir_Kind_Wildcard_Type_Definition, Wildcard_Psl_Bitvector_Type); Create_Known_Iir (Iir_Kind_Wildcard_Type_Definition, Wildcard_Psl_Boolean_Type); end Create_First_Nodes; procedure Create_Std_Standard_Package (Parent : Iir_Library_Declaration) is function Get_Std_Character (Char: Character) return Name_Id renames Name_Table.Get_Identifier; procedure Set_Std_Identifier (Decl : Iir; Name : Name_Id) is begin Set_Identifier (Decl, Name); Set_Visible_Flag (Decl, True); end Set_Std_Identifier; function Create_Std_Integer (Val : Int64; Lit_Type : Iir) return Iir_Integer_Literal is Res : Iir_Integer_Literal; begin Res := Create_Std_Iir (Iir_Kind_Integer_Literal); Set_Value (Res, Val); Set_Type (Res, Lit_Type); Set_Expr_Staticness (Res, Locally); return Res; end Create_Std_Integer; function Create_Std_Fp (Val : Fp64; Lit_Type : Iir) return Iir_Floating_Point_Literal is Res : Iir_Floating_Point_Literal; begin Res := Create_Std_Iir (Iir_Kind_Floating_Point_Literal); Set_Fp_Value (Res, Val); Set_Type (Res, Lit_Type); Set_Expr_Staticness (Res, Locally); return Res; end Create_Std_Fp; function Create_Std_Range_Expr (Left, Right : Iir; Rtype : Iir) return Iir is Res : Iir; begin Res := Create_Std_Iir (Iir_Kind_Range_Expression); Set_Left_Limit (Res, Left); Set_Left_Limit_Expr (Res, Left); Set_Direction (Res, Dir_To); Set_Right_Limit (Res, Right); Set_Right_Limit_Expr (Res, Right); Set_Expr_Staticness (Res, Locally); Set_Type (Res, Rtype); return Res; end Create_Std_Range_Expr; function Create_Std_Literal (Name : Name_Id; Pos : Natural; Sub_Type : Iir_Enumeration_Type_Definition) return Iir_Enumeration_Literal is List : constant Iir_Flist := Get_Enumeration_Literal_List (Sub_Type); Res : Iir_Enumeration_Literal; begin Res := Create_Std_Decl (Iir_Kind_Enumeration_Literal); Set_Std_Identifier (Res, Name); Set_Type (Res, Sub_Type); Set_Expr_Staticness (Res, Locally); Set_Name_Staticness (Res, Locally); Set_Enum_Pos (Res, Iir_Int32 (Pos)); Vhdl.Sem_Utils.Compute_Subprogram_Hash (Res); Set_Nth_Element (List, Pos, Res); return Res; end Create_Std_Literal; -- Append a declaration DECL to Standard_Package. Last_Decl : Iir := Null_Iir; procedure Add_Decl (Decl : Iir) is begin if Last_Decl = Null_Iir then Set_Declaration_Chain (Standard_Package, Decl); else Set_Chain (Last_Decl, Decl); end if; Last_Decl := Decl; end Add_Decl; procedure Add_Implicit_Operations (Decl : Iir) is Nxt : Iir; begin Vhdl.Sem_Utils.Create_Implicit_Operations (Decl, True); -- Update Last_Decl loop Nxt := Get_Chain (Last_Decl); exit when Nxt = Null_Iir; Last_Decl := Nxt; end loop; end Add_Implicit_Operations; -- Find implicit declaration of "**" for type declaration TYPE_DECL -- and append it at the current end of std_package. procedure Relocate_Exp_At_End (Type_Decl : Iir) is Prev_El, El : Iir; begin pragma Assert (Get_Kind (Type_Decl) = Iir_Kind_Anonymous_Type_Declaration); El := Type_Decl; loop Prev_El := El; El := Get_Chain (El); pragma Assert (Get_Kind (El) = Iir_Kind_Function_Declaration); exit when Get_Implicit_Definition (El) = Iir_Predefined_Integer_Exp; exit when Get_Implicit_Definition (El) = Iir_Predefined_Floating_Exp; end loop; -- EL must not be the last element, otherwise Add_Decl will break -- the chain. pragma Assert (Is_Valid (Get_Chain (El))); -- Remove from the chain. Set_Chain (Prev_El, Get_Chain (El)); Set_Chain (El, Null_Iir); -- Append. Add_Decl (El); end Relocate_Exp_At_End; procedure Create_Std_Type (Decl : out Iir; Def : Iir; Name : Name_Id) is begin Decl := Create_Std_Decl (Iir_Kind_Type_Declaration); Set_Std_Identifier (Decl, Name); Set_Type_Definition (Decl, Def); Add_Decl (Decl); Set_Type_Declarator (Def, Decl); end Create_Std_Type; procedure Create_Integer_Type (Type_Definition : Iir; Type_Decl : out Iir; Type_Name : Name_Id) is begin --Integer_Type_Definition := -- Create_Std_Iir (Iir_Kind_Integer_Type_Definition); Set_Type_Staticness (Type_Definition, Locally); Set_Signal_Type_Flag (Type_Definition, True); Set_Has_Signal_Flag (Type_Definition, not Flags.Flag_Whole_Analyze); Type_Decl := Create_Std_Decl (Iir_Kind_Anonymous_Type_Declaration); Set_Identifier (Type_Decl, Type_Name); Set_Type_Definition (Type_Decl, Type_Definition); Set_Type_Declarator (Type_Definition, Type_Decl); end Create_Integer_Type; procedure Create_Integer_Subtype (Type_Definition : Iir; Type_Decl : Iir; Subtype_Definition : out Iir; Subtype_Decl : out Iir; Is_64 : Boolean) is Constraint : Iir; begin Subtype_Definition := Create_Std_Iir (Iir_Kind_Integer_Subtype_Definition); Set_Parent_Type (Subtype_Definition, Type_Definition); Constraint := Create_Std_Range_Expr (Create_Std_Integer (Low_Bound (Is_64), Universal_Integer_Type_Definition), Create_Std_Integer (High_Bound (Is_64), Universal_Integer_Type_Definition), Universal_Integer_Type_Definition); Set_Range_Constraint (Subtype_Definition, Constraint); Set_Type_Staticness (Subtype_Definition, Locally); Set_Signal_Type_Flag (Subtype_Definition, True); Set_Has_Signal_Flag (Subtype_Definition, not Flags.Flag_Whole_Analyze); -- subtype is Subtype_Decl := Create_Std_Decl (Iir_Kind_Subtype_Declaration); Set_Std_Identifier (Subtype_Decl, Get_Identifier (Type_Decl)); Set_Type (Subtype_Decl, Subtype_Definition); Set_Subtype_Indication (Subtype_Decl, Subtype_Definition); Set_Type_Declarator (Subtype_Definition, Subtype_Decl); Set_Subtype_Definition (Type_Decl, Subtype_Definition); end Create_Integer_Subtype; -- Create an array of EL_TYPE, indexed by Natural. procedure Create_Array_Type (Def : out Iir; Decl : out Iir; El_Decl : Iir; Name : Name_Id) is Index_List : Iir_Flist; Index : Iir; Element : Iir; begin Element := Create_Std_Type_Mark (El_Decl); Index := Create_Std_Type_Mark (Natural_Subtype_Declaration); Def := Create_Std_Iir (Iir_Kind_Array_Type_Definition); Index_List := Create_Iir_Flist (1); Set_Index_Subtype_Definition_List (Def, Index_List); Set_Index_Subtype_List (Def, Index_List); Set_Nth_Element (Index_List, 0, Index); Set_Element_Subtype_Indication (Def, Element); Set_Element_Subtype (Def, Get_Type (El_Decl)); Set_Type_Staticness (Def, None); Set_Signal_Type_Flag (Def, True); Set_Has_Signal_Flag (Def, not Flags.Flag_Whole_Analyze); Create_Std_Type (Decl, Def, Name); Add_Implicit_Operations (Decl); end Create_Array_Type; -- Create: -- function TO_STRING (VALUE: inter_type) return STRING; procedure Create_To_String (Inter_Type : Iir; Imp : Iir_Predefined_Functions; Name : Name_Id := Std_Names.Name_To_String; Inter2_Id : Name_Id := Null_Identifier; Inter2_Type : Iir := Null_Iir) is Decl : Iir_Function_Declaration; Inter : Iir_Interface_Constant_Declaration; Inter2 : Iir_Interface_Constant_Declaration; begin Decl := Create_Std_Decl (Iir_Kind_Function_Declaration); Set_Std_Identifier (Decl, Name); Set_Return_Type (Decl, String_Type_Definition); Set_Pure_Flag (Decl, True); Set_Implicit_Definition (Decl, Imp); Inter := Create_Iir (Iir_Kind_Interface_Constant_Declaration); Set_Identifier (Inter, Std_Names.Name_Value); Set_Type (Inter, Inter_Type); Set_Mode (Inter, Iir_In_Mode); Set_Visible_Flag (Inter, True); Set_Interface_Declaration_Chain (Decl, Inter); if Inter2_Id /= Null_Identifier then Inter2 := Create_Iir (Iir_Kind_Interface_Constant_Declaration); Set_Identifier (Inter2, Inter2_Id); Set_Type (Inter2, Inter2_Type); Set_Mode (Inter2, Iir_In_Mode); Set_Visible_Flag (Inter2, True); Set_Chain (Inter, Inter2); end if; Vhdl.Sem_Utils.Compute_Subprogram_Hash (Decl); Add_Decl (Decl); end Create_To_String; -- Create: -- function NAME (signal S : I inter_type) return BOOLEAN; procedure Create_Edge_Function (Name : Name_Id; Func : Iir_Predefined_Functions; Inter_Type : Iir) is Decl : Iir_Function_Declaration; Inter : Iir_Interface_Constant_Declaration; begin Decl := Create_Std_Decl (Iir_Kind_Function_Declaration); Set_Std_Identifier (Decl, Name); Set_Return_Type (Decl, Boolean_Type_Definition); Set_Pure_Flag (Decl, True); Set_Implicit_Definition (Decl, Func); Inter := Create_Iir (Iir_Kind_Interface_Signal_Declaration); Set_Identifier (Inter, Std_Names.Name_S); Set_Type (Inter, Inter_Type); Set_Mode (Inter, Iir_In_Mode); Set_Visible_Flag (Inter, True); Set_Interface_Declaration_Chain (Decl, Inter); Vhdl.Sem_Utils.Compute_Subprogram_Hash (Decl); Add_Decl (Decl); end Create_Edge_Function; procedure Create_Wildcard_Type (Def : Iir; Name : String) is Decl : Iir; begin Decl := Create_Std_Decl (Iir_Kind_Type_Declaration); Set_Identifier (Decl, Name_Table.Get_Identifier (Name)); Set_Type_Staticness (Def, None); Set_Type_Definition (Decl, Def); Set_Type_Declarator (Def, Decl); Set_Chain (Decl, Wildcard_Type_Declaration_Chain); Wildcard_Type_Declaration_Chain := Decl; end Create_Wildcard_Type; function Is64 (B : Boolean) return Scalar_Size is begin if B then return Scalar_64; else return Scalar_32; end if; end Is64; begin -- Create design file. Std_Standard_File := Create_Std_Iir (Iir_Kind_Design_File); Set_Parent (Std_Standard_File, Parent); Set_Design_File_Filename (Std_Standard_File, Std_Filename); declare Std_Time_Stamp : constant Time_Stamp_String := "20020601000000.000"; Id : Time_Stamp_Id; begin Id := Time_Stamp_Id (Str_Table.Create_String8); for I in Time_Stamp_String'Range loop Str_Table.Append_String8_Char (Std_Time_Stamp (I)); end loop; Set_Analysis_Time_Stamp (Std_Standard_File, Id); end; -- Create design unit. Std_Standard_Unit := Create_Std_Iir (Iir_Kind_Design_Unit); Set_Identifier (Std_Standard_Unit, Name_Standard); Set_First_Design_Unit (Std_Standard_File, Std_Standard_Unit); Set_Last_Design_Unit (Std_Standard_File, Std_Standard_Unit); Set_Design_File (Std_Standard_Unit, Std_Standard_File); Set_Date_State (Std_Standard_Unit, Date_Analyze); Set_Dependence_List (Std_Standard_Unit, Create_Iir_List); Set_Date (Std_Standard_Unit, Date_Valid'First); -- Adding "package STANDARD is" Standard_Package := Create_Std_Iir (Iir_Kind_Package_Declaration); Set_Std_Identifier (Standard_Package, Name_Standard); Set_Need_Body (Standard_Package, False); Set_Library_Unit (Std_Standard_Unit, Standard_Package); Set_Design_Unit (Standard_Package, Std_Standard_Unit); -- boolean begin -- (false, true) Boolean_Type_Definition := Create_Std_Iir (Iir_Kind_Enumeration_Type_Definition); Set_Enumeration_Literal_List (Boolean_Type_Definition, Create_Iir_Flist (2)); Boolean_False := Create_Std_Literal (Name_False, 0, Boolean_Type_Definition); Boolean_True := Create_Std_Literal (Name_True, 1, Boolean_Type_Definition); Set_Type_Staticness (Boolean_Type_Definition, Locally); Set_Signal_Type_Flag (Boolean_Type_Definition, True); Set_Has_Signal_Flag (Boolean_Type_Definition, not Flags.Flag_Whole_Analyze); Set_Scalar_Size (Boolean_Type_Definition, Scalar_8); -- type boolean is Create_Std_Type (Boolean_Type_Declaration, Boolean_Type_Definition, Name_Boolean); Utils.Create_Range_Constraint_For_Enumeration_Type (Boolean_Type_Definition); Add_Implicit_Operations (Boolean_Type_Declaration); end; if Vhdl_Std >= Vhdl_08 then -- Rising_Edge and Falling_Edge Create_Edge_Function (Std_Names.Name_Rising_Edge, Iir_Predefined_Boolean_Rising_Edge, Boolean_Type_Definition); Create_Edge_Function (Std_Names.Name_Falling_Edge, Iir_Predefined_Boolean_Falling_Edge, Boolean_Type_Definition); end if; -- bit. begin -- ('0', '1') Bit_Type_Definition := Create_Std_Iir (Iir_Kind_Enumeration_Type_Definition); Set_Enumeration_Literal_List (Bit_Type_Definition, Create_Iir_Flist (2)); Set_Is_Character_Type (Bit_Type_Definition, True); Bit_0 := Create_Std_Literal (Get_Std_Character ('0'), 0, Bit_Type_Definition); Bit_1 := Create_Std_Literal (Get_Std_Character ('1'), 1, Bit_Type_Definition); Set_Type_Staticness (Bit_Type_Definition, Locally); Set_Signal_Type_Flag (Bit_Type_Definition, True); Set_Has_Signal_Flag (Bit_Type_Definition, not Flags.Flag_Whole_Analyze); Set_Only_Characters_Flag (Bit_Type_Definition, True); Set_Scalar_Size (Bit_Type_Definition, Scalar_8); -- type bit is Create_Std_Type (Bit_Type_Declaration, Bit_Type_Definition, Name_Bit); Utils.Create_Range_Constraint_For_Enumeration_Type (Bit_Type_Definition); Add_Implicit_Operations (Bit_Type_Declaration); end; if Vhdl_Std >= Vhdl_08 then -- Rising_Edge and Falling_Edge Create_Edge_Function (Std_Names.Name_Rising_Edge, Iir_Predefined_Bit_Rising_Edge, Bit_Type_Definition); Create_Edge_Function (Std_Names.Name_Falling_Edge, Iir_Predefined_Bit_Falling_Edge, Bit_Type_Definition); end if; -- characters. declare El: Iir; pragma Unreferenced (El); Len : Natural; begin Character_Type_Definition := Create_Std_Iir (Iir_Kind_Enumeration_Type_Definition); Set_Is_Character_Type (Character_Type_Definition, True); if Vhdl_Std = Vhdl_87 then Len := 128; else Len := 256; end if; Set_Enumeration_Literal_List (Character_Type_Definition, Create_Iir_Flist (Len)); Set_Scalar_Size (Character_Type_Definition, Scalar_8); for I in Name_Nul .. Name_Usp loop El := Create_Std_Literal (I, Natural (I - Name_Nul), Character_Type_Definition); end loop; for I in Character'(' ') .. Character'('~') loop El := Create_Std_Literal (Get_Std_Character (I), Character'Pos (I), Character_Type_Definition); end loop; El := Create_Std_Literal (Name_Del, 127, Character_Type_Definition); if Vhdl_Std /= Vhdl_87 then for I in Name_C128 .. Name_C159 loop El := Create_Std_Literal (I, 128 + Natural (I - Name_C128), Character_Type_Definition); end loop; for I in Character'Val (160) .. Character'Val (255) loop El := Create_Std_Literal (Get_Std_Character (I), Character'Pos (I), Character_Type_Definition); end loop; end if; Set_Type_Staticness (Character_Type_Definition, Locally); Set_Signal_Type_Flag (Character_Type_Definition, True); Set_Has_Signal_Flag (Character_Type_Definition, not Flags.Flag_Whole_Analyze); -- type character is Create_Std_Type (Character_Type_Declaration, Character_Type_Definition, Name_Character); Utils.Create_Range_Constraint_For_Enumeration_Type (Character_Type_Definition); Add_Implicit_Operations (Character_Type_Declaration); end; -- severity level. begin -- (note, warning, error, failure) Severity_Level_Type_Definition := Create_Std_Iir (Iir_Kind_Enumeration_Type_Definition); Set_Enumeration_Literal_List (Severity_Level_Type_Definition, Create_Iir_Flist (4)); Set_Scalar_Size (Severity_Level_Type_Definition, Scalar_8); Severity_Level_Note := Create_Std_Literal (Name_Note, 0, Severity_Level_Type_Definition); Severity_Level_Warning := Create_Std_Literal (Name_Warning, 1, Severity_Level_Type_Definition); Severity_Level_Error := Create_Std_Literal (Name_Error, 2, Severity_Level_Type_Definition); Severity_Level_Failure := Create_Std_Literal (Name_Failure, 3, Severity_Level_Type_Definition); Set_Type_Staticness (Severity_Level_Type_Definition, Locally); Set_Signal_Type_Flag (Severity_Level_Type_Definition, True); Set_Has_Signal_Flag (Severity_Level_Type_Definition, not Flags.Flag_Whole_Analyze); -- type severity_level is Create_Std_Type (Severity_Level_Type_Declaration, Severity_Level_Type_Definition, Name_Severity_Level); Utils.Create_Range_Constraint_For_Enumeration_Type (Severity_Level_Type_Definition); Add_Implicit_Operations (Severity_Level_Type_Declaration); end; -- universal integer begin Create_Integer_Type (Universal_Integer_Type_Definition, Universal_Integer_Type_Declaration, Name_Universal_Integer); Add_Decl (Universal_Integer_Type_Declaration); Set_Scalar_Size (Universal_Integer_Type_Definition, Is64 (Flags.Flag_Time_64 or Flags.Flag_Integer_64)); Create_Integer_Subtype (Universal_Integer_Type_Definition, Universal_Integer_Type_Declaration, Universal_Integer_Subtype_Definition, Universal_Integer_Subtype_Declaration, Flags.Flag_Time_64 or Flags.Flag_Integer_64); Add_Decl (Universal_Integer_Subtype_Declaration); Set_Subtype_Definition (Universal_Integer_Type_Declaration, Universal_Integer_Subtype_Definition); -- Do not create implicit operations yet, since "**" needs integer -- type. end; -- Universal integer constant 1. Universal_Integer_One := Create_Std_Integer (1, Universal_Integer_Type_Definition); -- Universal real. declare Constraint : Iir_Range_Expression; begin Set_Type_Staticness (Universal_Real_Type_Definition, Locally); Set_Signal_Type_Flag (Universal_Real_Type_Definition, True); Set_Has_Signal_Flag (Universal_Real_Type_Definition, False); -- type universal_real is ... Universal_Real_Type_Declaration := Create_Std_Decl (Iir_Kind_Anonymous_Type_Declaration); Set_Identifier (Universal_Real_Type_Declaration, Name_Universal_Real); Set_Type_Definition (Universal_Real_Type_Declaration, Universal_Real_Type_Definition); Set_Type_Declarator (Universal_Real_Type_Definition, Universal_Real_Type_Declaration); Add_Decl (Universal_Real_Type_Declaration); Universal_Real_Subtype_Definition := Create_Std_Iir (Iir_Kind_Floating_Subtype_Definition); Set_Parent_Type (Universal_Real_Subtype_Definition, Universal_Real_Type_Definition); Constraint := Create_Std_Range_Expr (Create_Std_Fp (Fp64'First, Universal_Real_Type_Definition), Create_Std_Fp (Fp64'Last, Universal_Real_Type_Definition), Universal_Real_Type_Definition); Set_Range_Constraint (Universal_Real_Subtype_Definition, Constraint); Set_Type_Staticness (Universal_Real_Subtype_Definition, Locally); Set_Signal_Type_Flag (Universal_Real_Subtype_Definition, True); Set_Has_Signal_Flag (Universal_Real_Subtype_Definition, False); -- subtype universal_real is ... Universal_Real_Subtype_Declaration := Create_Std_Decl (Iir_Kind_Subtype_Declaration); Set_Identifier (Universal_Real_Subtype_Declaration, Name_Universal_Real); Set_Type (Universal_Real_Subtype_Declaration, Universal_Real_Subtype_Definition); Set_Subtype_Indication (Universal_Real_Subtype_Declaration, Universal_Real_Subtype_Definition); Set_Type_Declarator (Universal_Real_Subtype_Definition, Universal_Real_Subtype_Declaration); Set_Subtype_Definition (Universal_Real_Type_Declaration, Universal_Real_Subtype_Definition); Add_Decl (Universal_Real_Subtype_Declaration); -- Do not create implicit operations yet, since "**" needs integer -- type. end; -- Convertible type. begin Create_Integer_Type (Convertible_Integer_Type_Definition, Convertible_Integer_Type_Declaration, Name_Convertible_Integer); Set_Scalar_Size (Convertible_Integer_Type_Definition, Is64 (Flags.Flag_Time_64 or Flags.Flag_Integer_64)); Create_Integer_Subtype (Convertible_Integer_Type_Definition, Convertible_Integer_Type_Declaration, Convertible_Integer_Subtype_Definition, Convertible_Integer_Subtype_Declaration, Flags.Flag_Time_64 or Flags.Flag_Integer_64); -- Not added in std.standard. end; begin Set_Type_Staticness (Convertible_Real_Type_Definition, Locally); Set_Signal_Type_Flag (Convertible_Real_Type_Definition, True); Set_Has_Signal_Flag (Convertible_Real_Type_Definition, False); Convertible_Real_Type_Declaration := Create_Std_Decl (Iir_Kind_Anonymous_Type_Declaration); Set_Identifier (Convertible_Real_Type_Declaration, Name_Convertible_Real); Set_Type_Definition (Convertible_Real_Type_Declaration, Convertible_Real_Type_Definition); Set_Type_Declarator (Convertible_Real_Type_Definition, Convertible_Real_Type_Declaration); end; -- integer type. begin Integer_Type_Definition := Create_Std_Iir (Iir_Kind_Integer_Type_Definition); Create_Integer_Type (Integer_Type_Definition, Integer_Type_Declaration, Name_Integer); Set_Scalar_Size (Integer_Type_Definition, Is64 (Flags.Flag_Integer_64)); Add_Decl (Integer_Type_Declaration); -- Now that Integer is declared, create operations for universal -- types. They will be inserted just after the type declaration, -- but cannot be done before as "**" relies on Integer. Add_Implicit_Operations (Universal_Integer_Type_Declaration); Add_Implicit_Operations (Universal_Real_Type_Declaration); -- Don't define "**" for universal types before the declaration of -- Integer, so move them. Relocate_Exp_At_End (Universal_Integer_Type_Declaration); Relocate_Exp_At_End (Universal_Real_Type_Declaration); Add_Implicit_Operations (Integer_Type_Declaration); Create_Integer_Subtype (Integer_Type_Definition, Integer_Type_Declaration, Integer_Subtype_Definition, Integer_Subtype_Declaration, Flags.Flag_Integer_64); Add_Decl (Integer_Subtype_Declaration); end; -- Real type. declare Constraint : Iir_Range_Expression; begin Real_Type_Definition := Create_Std_Iir (Iir_Kind_Floating_Type_Definition); Set_Type_Staticness (Real_Type_Definition, Locally); Set_Signal_Type_Flag (Real_Type_Definition, True); Set_Has_Signal_Flag (Real_Type_Definition, not Flags.Flag_Whole_Analyze); Set_Scalar_Size (Real_Type_Definition, Scalar_64); Real_Type_Declaration := Create_Std_Decl (Iir_Kind_Anonymous_Type_Declaration); Set_Identifier (Real_Type_Declaration, Name_Real); Set_Type_Definition (Real_Type_Declaration, Real_Type_Definition); Set_Type_Declarator (Real_Type_Definition, Real_Type_Declaration); Add_Decl (Real_Type_Declaration); Add_Implicit_Operations (Real_Type_Declaration); Real_Subtype_Definition := Create_Std_Iir (Iir_Kind_Floating_Subtype_Definition); Set_Parent_Type (Real_Subtype_Definition, Real_Type_Definition); Constraint := Create_Std_Range_Expr (Create_Std_Fp (Fp64'First, Universal_Real_Type_Definition), Create_Std_Fp (Fp64'Last, Universal_Real_Type_Definition), Universal_Real_Type_Definition); Set_Range_Constraint (Real_Subtype_Definition, Constraint); Set_Type_Staticness (Real_Subtype_Definition, Locally); Set_Signal_Type_Flag (Real_Subtype_Definition, True); Set_Has_Signal_Flag (Real_Subtype_Definition, not Flags.Flag_Whole_Analyze); Real_Subtype_Declaration := Create_Std_Decl (Iir_Kind_Subtype_Declaration); Set_Std_Identifier (Real_Subtype_Declaration, Name_Real); Set_Type (Real_Subtype_Declaration, Real_Subtype_Definition); Set_Subtype_Indication (Real_Subtype_Declaration, Real_Subtype_Definition); Set_Type_Declarator (Real_Subtype_Definition, Real_Subtype_Declaration); Add_Decl (Real_Subtype_Declaration); Set_Subtype_Definition (Real_Type_Declaration, Real_Subtype_Definition); end; -- time definition declare Time_Staticness : Iir_Staticness; First_Unit, Last_Unit : Iir_Unit_Declaration; function Create_Std_Phys_Lit (Value : Int64; Unit : Iir) return Iir_Physical_Int_Literal is Lit: Iir_Physical_Int_Literal; Unit_Name : Iir; begin Lit := Create_Std_Iir (Iir_Kind_Physical_Int_Literal); Set_Value (Lit, Value); pragma Assert (Get_Kind (Unit) = Iir_Kind_Unit_Declaration); Unit_Name := Create_Std_Iir (Iir_Kind_Simple_Name); Set_Identifier (Unit_Name, Get_Identifier (Unit)); Set_Named_Entity (Unit_Name, Unit); Set_Unit_Name (Lit, Unit_Name); Set_Type (Lit, Time_Type_Definition); Set_Expr_Staticness (Lit, Time_Staticness); return Lit; end Create_Std_Phys_Lit; procedure Create_Unit (Unit : out Iir_Unit_Declaration; Multiplier_Value : Int64; Multiplier : in Iir_Unit_Declaration; Name : Name_Id) is Lit, Lit1 : Iir_Physical_Int_Literal; begin -- The unit. Unit := Create_Std_Decl (Iir_Kind_Unit_Declaration); Set_Std_Identifier (Unit, Name); Set_Type (Unit, Time_Type_Definition); -- The physical literal. Lit1 := Create_Std_Phys_Lit (Multiplier_Value, Multiplier); -- The computed value of the physical literal. Lit := Create_Std_Iir (Iir_Kind_Integer_Literal); Set_Value (Lit, Multiplier_Value * Get_Value (Get_Physical_Literal (Multiplier))); Set_Literal_Origin (Lit, Lit1); Set_Physical_Literal (Unit, Lit); Set_Expr_Staticness (Unit, Time_Staticness); Set_Name_Staticness (Unit, Locally); Chain_Append (First_Unit, Last_Unit, Unit); end Create_Unit; Constraint : Iir_Range_Expression; begin if Vhdl_Std >= Vhdl_93 then Time_Staticness := Globally; else Time_Staticness := Locally; end if; Time_Type_Definition := Create_Std_Iir (Iir_Kind_Physical_Type_Definition); Set_Type_Staticness (Time_Type_Definition, Locally);--Time_Staticness Set_Signal_Type_Flag (Time_Type_Definition, True); Set_Has_Signal_Flag (Time_Type_Definition, not Flags.Flag_Whole_Analyze); Set_End_Has_Reserved_Id (Time_Type_Definition, True); Set_Scalar_Size (Time_Type_Definition, Is64 (Flags.Flag_Time_64)); Chain_Init (First_Unit, Last_Unit); Time_Fs_Unit := Create_Std_Decl (Iir_Kind_Unit_Declaration); Set_Std_Identifier (Time_Fs_Unit, Name_Fs); Set_Type (Time_Fs_Unit, Time_Type_Definition); Set_Expr_Staticness (Time_Fs_Unit, Time_Staticness); Set_Name_Staticness (Time_Fs_Unit, Locally); declare Lit : Iir; begin Lit := Create_Std_Iir (Iir_Kind_Integer_Literal); Set_Value (Lit, 1); Set_Physical_Literal (Time_Fs_Unit, Lit); Set_Literal_Origin (Lit, Create_Std_Phys_Lit (1, Time_Fs_Unit)); end; Chain_Append (First_Unit, Last_Unit, Time_Fs_Unit); Create_Unit (Time_Ps_Unit, 1000, Time_Fs_Unit, Name_Ps); Create_Unit (Time_Ns_Unit, 1000, Time_Ps_Unit, Name_Ns); Create_Unit (Time_Us_Unit, 1000, Time_Ns_Unit, Name_Us); Create_Unit (Time_Ms_Unit, 1000, Time_Us_Unit, Name_Ms); Create_Unit (Time_Sec_Unit, 1000, Time_Ms_Unit, Name_Sec); Create_Unit (Time_Min_Unit, 60, Time_Sec_Unit, Name_Min); Create_Unit (Time_Hr_Unit, 60, Time_Min_Unit, Name_Hr); -- type is Time_Type_Declaration := Create_Std_Decl (Iir_Kind_Anonymous_Type_Declaration); Set_Identifier (Time_Type_Declaration, Name_Time); Set_Type_Definition (Time_Type_Declaration, Time_Type_Definition); Set_Type_Declarator (Time_Type_Definition, Time_Type_Declaration); Set_Unit_Chain (Time_Type_Definition, First_Unit); Add_Decl (Time_Type_Declaration); Add_Implicit_Operations (Time_Type_Declaration); Time_Subtype_Definition := Create_Std_Iir (Iir_Kind_Physical_Subtype_Definition); Constraint := Create_Std_Range_Expr (Create_Std_Phys_Lit (Low_Bound (Flags.Flag_Time_64), Time_Fs_Unit), Create_Std_Phys_Lit (High_Bound (Flags.Flag_Time_64), Time_Fs_Unit), Time_Type_Definition); Set_Range_Constraint (Time_Subtype_Definition, Constraint); Set_Parent_Type (Time_Subtype_Definition, Time_Type_Definition); --Set_Subtype_Type_Mark (Time_Subtype_Definition, -- Time_Type_Definition); Set_Type_Staticness (Time_Subtype_Definition, Time_Staticness); Set_Signal_Type_Flag (Time_Subtype_Definition, True); Set_Has_Signal_Flag (Time_Subtype_Definition, not Flags.Flag_Whole_Analyze); -- subtype time is Time_Subtype_Declaration := Create_Std_Decl (Iir_Kind_Subtype_Declaration); Set_Std_Identifier (Time_Subtype_Declaration, Name_Time); Set_Type (Time_Subtype_Declaration, Time_Subtype_Definition); Set_Subtype_Indication (Time_Subtype_Declaration, Time_Subtype_Definition); Set_Type_Declarator (Time_Subtype_Definition, Time_Subtype_Declaration); Add_Decl (Time_Subtype_Declaration); Set_Subtype_Definition (Time_Type_Declaration, Time_Subtype_Definition); -- VHDL93 -- subtype DELAY_LENGTH is TIME range 0 to TIME'HIGH if Vhdl_Std >= Vhdl_93 then Delay_Length_Subtype_Definition := Create_Std_Iir (Iir_Kind_Physical_Subtype_Definition); Set_Subtype_Type_Mark (Delay_Length_Subtype_Definition, Create_Std_Type_Mark (Time_Subtype_Declaration)); Constraint := Create_Std_Range_Expr (Create_Std_Phys_Lit (0, Time_Fs_Unit), Create_Std_Phys_Lit (High_Bound (Flags.Flag_Time_64), Time_Fs_Unit), Time_Type_Definition); Set_Range_Constraint (Delay_Length_Subtype_Definition, Constraint); Set_Parent_Type (Delay_Length_Subtype_Definition, Time_Type_Definition); Set_Type_Staticness (Delay_Length_Subtype_Definition, Time_Staticness); Set_Signal_Type_Flag (Delay_Length_Subtype_Definition, True); Set_Has_Signal_Flag (Delay_Length_Subtype_Definition, not Flags.Flag_Whole_Analyze); -- subtype delay_length is ... Delay_Length_Subtype_Declaration := Create_Std_Decl (Iir_Kind_Subtype_Declaration); Set_Std_Identifier (Delay_Length_Subtype_Declaration, Name_Delay_Length); Set_Type (Delay_Length_Subtype_Declaration, Delay_Length_Subtype_Definition); Set_Type_Declarator (Delay_Length_Subtype_Definition, Delay_Length_Subtype_Declaration); Set_Subtype_Indication (Delay_Length_Subtype_Declaration, Delay_Length_Subtype_Definition); Add_Decl (Delay_Length_Subtype_Declaration); else Delay_Length_Subtype_Definition := Null_Iir; Delay_Length_Subtype_Declaration := Null_Iir; end if; end; -- AMS-VHDL: -- type DOMAIN_TYPE is -- (QUIESCENT_DOMAIN, TIME_DOMAIN, FREQUENCY_DOMAIN); if AMS_Vhdl then Domain_Type_Type_Definition := Create_Std_Iir (Iir_Kind_Enumeration_Type_Definition); Set_Enumeration_Literal_List (Domain_Type_Type_Definition, Create_Iir_Flist (3)); Set_Scalar_Size (Domain_Type_Type_Definition, Scalar_8); Domain_Type_Quiescent_Domain := Create_Std_Literal (Name_Quiescent_Domain, 0, Domain_Type_Type_Definition); Domain_Type_Time_Domain := Create_Std_Literal (Name_Time_Domain, 1, Domain_Type_Type_Definition); Domain_Type_Frequency_Domain := Create_Std_Literal (Name_Frequency_Domain, 2, Domain_Type_Type_Definition); Set_Type_Staticness (Domain_Type_Type_Definition, Locally); Set_Signal_Type_Flag (Domain_Type_Type_Definition, True); Set_Has_Signal_Flag (Domain_Type_Type_Definition, True); -- type domain_type is Create_Std_Type (Domain_Type_Type_Declaration, Domain_Type_Type_Definition, Name_Domain_Type); Utils.Create_Range_Constraint_For_Enumeration_Type (Domain_Type_Type_Definition); Add_Implicit_Operations (Domain_Type_Type_Declaration); -- signal DOMAIN : DOMAIN_TYPE := QUIESCENT_DOMAIN; declare Init : Iir; begin Domain_Signal := Create_Std_Decl (Iir_Kind_Signal_Declaration); Set_Std_Identifier (Domain_Signal, Std_Names.Name_Domain); Set_Type (Domain_Signal, Domain_Type_Type_Definition); Set_Subtype_Indication (Domain_Signal, Create_Std_Type_Mark (Domain_Type_Type_Declaration)); Set_Expr_Staticness (Domain_Signal, None); Set_Name_Staticness (Domain_Signal, Locally); Init := Create_Std_Iir (Iir_Kind_Simple_Name); Set_Identifier (Init, Name_Quiescent_Domain); Set_Named_Entity (Init, Domain_Type_Quiescent_Domain); Set_Type (Init, Domain_Type_Type_Definition); Set_Expr_Staticness (Init, Locally); Set_Name_Staticness (Init, Locally); Set_Default_Value (Domain_Signal, Init); Add_Decl (Domain_Signal); end; else Domain_Type_Type_Declaration := Null_Iir; Domain_Type_Type_Definition := Null_Iir; Domain_Type_Quiescent_Domain := Null_Iir; Domain_Type_Time_Domain := Null_Iir; Domain_Type_Frequency_Domain := Null_Iir; Domain_Signal := Null_Iir; end if; -- VHDL87: -- function NOW return TIME -- -- impure function NOW return DELAY_LENGTH. declare Function_Now : Iir_Function_Declaration; begin Function_Now := Create_Std_Decl (Iir_Kind_Function_Declaration); Set_Std_Identifier (Function_Now, Std_Names.Name_Now); if Vhdl_Std = Vhdl_87 then Set_Return_Type (Function_Now, Time_Subtype_Definition); else Set_Return_Type (Function_Now, Delay_Length_Subtype_Definition); end if; if Vhdl_Std = Vhdl_02 then Set_Pure_Flag (Function_Now, True); else Set_Pure_Flag (Function_Now, False); end if; Set_Implicit_Definition (Function_Now, Iir_Predefined_Now_Function); Vhdl.Sem_Utils.Compute_Subprogram_Hash (Function_Now); Add_Decl (Function_Now); end; if AMS_Vhdl then -- AMS-LRM17 16.3 -- impure function NOW return REAL; declare Function_Now : Iir_Function_Declaration; begin Function_Now := Create_Std_Decl (Iir_Kind_Function_Declaration); Set_Std_Identifier (Function_Now, Std_Names.Name_Now); Set_Return_Type (Function_Now, Real_Subtype_Definition); Set_Pure_Flag (Function_Now, False); Set_Implicit_Definition (Function_Now, Iir_Predefined_Real_Now_Function); Vhdl.Sem_Utils.Compute_Subprogram_Hash (Function_Now); Add_Decl (Function_Now); end; -- AMS-LRM17 16.3 -- impure function FREQUENCY return REAL; declare Function_Freq : Iir_Function_Declaration; begin Function_Freq := Create_Std_Decl (Iir_Kind_Function_Declaration); Set_Std_Identifier (Function_Freq, Std_Names.Name_Frequency); Set_Return_Type (Function_Freq, Real_Subtype_Definition); Set_Pure_Flag (Function_Freq, False); Set_Implicit_Definition (Function_Freq, Iir_Predefined_Frequency_Function); Vhdl.Sem_Utils.Compute_Subprogram_Hash (Function_Freq); Add_Decl (Function_Freq); end; end if; -- natural subtype declare Constraint : Iir_Range_Expression; begin Natural_Subtype_Definition := Create_Std_Iir (Iir_Kind_Integer_Subtype_Definition); Set_Parent_Type (Natural_Subtype_Definition, Integer_Type_Definition); Set_Subtype_Type_Mark (Natural_Subtype_Definition, Create_Std_Type_Mark (Integer_Subtype_Declaration)); Constraint := Create_Std_Range_Expr (Create_Std_Integer (0, Integer_Type_Definition), Create_Std_Integer (High_Bound (Flags.Flag_Integer_64), Integer_Type_Definition), Integer_Type_Definition); Set_Range_Constraint (Natural_Subtype_Definition, Constraint); Set_Type_Staticness (Natural_Subtype_Definition, Locally); Set_Signal_Type_Flag (Natural_Subtype_Definition, True); Set_Has_Signal_Flag (Natural_Subtype_Definition, not Flags.Flag_Whole_Analyze); Natural_Subtype_Declaration := Create_Std_Decl (Iir_Kind_Subtype_Declaration); Set_Std_Identifier (Natural_Subtype_Declaration, Name_Natural); Set_Type (Natural_Subtype_Declaration, Natural_Subtype_Definition); Set_Subtype_Indication (Natural_Subtype_Declaration, Natural_Subtype_Definition); Add_Decl (Natural_Subtype_Declaration); Set_Type_Declarator (Natural_Subtype_Definition, Natural_Subtype_Declaration); end; -- positive subtype declare Constraint : Iir_Range_Expression; begin Positive_Subtype_Definition := Create_Std_Iir (Iir_Kind_Integer_Subtype_Definition); Set_Parent_Type (Positive_Subtype_Definition, Integer_Type_Definition); Set_Subtype_Type_Mark (Positive_Subtype_Definition, Create_Std_Type_Mark (Integer_Subtype_Declaration)); Constraint := Create_Std_Range_Expr (Create_Std_Integer (1, Integer_Type_Definition), Create_Std_Integer (High_Bound (Flags.Flag_Integer_64), Integer_Type_Definition), Integer_Type_Definition); Set_Range_Constraint (Positive_Subtype_Definition, Constraint); Set_Type_Staticness (Positive_Subtype_Definition, Locally); Set_Signal_Type_Flag (Positive_Subtype_Definition, True); Set_Has_Signal_Flag (Positive_Subtype_Definition, not Flags.Flag_Whole_Analyze); Positive_Subtype_Declaration := Create_Std_Decl (Iir_Kind_Subtype_Declaration); Set_Std_Identifier (Positive_Subtype_Declaration, Name_Positive); Set_Type (Positive_Subtype_Declaration, Positive_Subtype_Definition); Set_Subtype_Indication (Positive_Subtype_Declaration, Positive_Subtype_Definition); Add_Decl (Positive_Subtype_Declaration); Set_Type_Declarator (Positive_Subtype_Definition, Positive_Subtype_Declaration); end; -- string type. -- type string is array (positive range <>) of character; declare Element : Iir; Index_List : Iir_Flist; begin Element := Create_Std_Type_Mark (Character_Type_Declaration); String_Type_Definition := Create_Std_Iir (Iir_Kind_Array_Type_Definition); Index_List := Create_Iir_Flist (1); Set_Nth_Element (Index_List, 0, Create_Std_Type_Mark (Positive_Subtype_Declaration)); Set_Index_Subtype_Definition_List (String_Type_Definition, Index_List); Set_Index_Subtype_List (String_Type_Definition, Index_List); Set_Element_Subtype_Indication (String_Type_Definition, Element); Set_Element_Subtype (String_Type_Definition, Character_Type_Definition); Set_Type_Staticness (String_Type_Definition, None); Set_Signal_Type_Flag (String_Type_Definition, True); Set_Has_Signal_Flag (String_Type_Definition, not Flags.Flag_Whole_Analyze); Create_Std_Type (String_Type_Declaration, String_Type_Definition, Name_String); Add_Implicit_Operations (String_Type_Declaration); end; if Vhdl_Std >= Vhdl_08 then -- type Boolean_Vector is array (Natural range <>) of Boolean; Create_Array_Type (Boolean_Vector_Type_Definition, Boolean_Vector_Type_Declaration, Boolean_Type_Declaration, Name_Boolean_Vector); end if; -- bit_vector type. -- type bit_vector is array (natural range <>) of bit; Create_Array_Type (Bit_Vector_Type_Definition, Bit_Vector_Type_Declaration, Bit_Type_Declaration, Name_Bit_Vector); -- LRM08 5.3.2.4 Predefined operations on array types -- The following operations are implicitly declared in package -- STD.STANDARD immediately following the declaration of type -- BIT_VECTOR: if Vhdl_Std >= Vhdl_08 then Create_To_String (Bit_Vector_Type_Definition, Iir_Predefined_Bit_Vector_To_Ostring, Name_To_Ostring); Create_To_String (Bit_Vector_Type_Definition, Iir_Predefined_Bit_Vector_To_Hstring, Name_To_Hstring); end if; -- VHDL 2008 -- Vector types if Vhdl_Std >= Vhdl_08 then -- type integer_vector is array (natural range <>) of Integer; Create_Array_Type (Integer_Vector_Type_Definition, Integer_Vector_Type_Declaration, Integer_Subtype_Declaration, Name_Integer_Vector); end if; if Vhdl_Std >= Vhdl_08 or else AMS_Vhdl then -- type Real_vector is array (natural range <>) of Real; Create_Array_Type (Real_Vector_Type_Definition, Real_Vector_Type_Declaration, Real_Subtype_Declaration, Name_Real_Vector); end if; if Vhdl_Std >= Vhdl_08 then -- type Time_vector is array (natural range <>) of Time; Create_Array_Type (Time_Vector_Type_Definition, Time_Vector_Type_Declaration, Time_Subtype_Declaration, Name_Time_Vector); end if; -- VHDL93: -- type file_open_kind is (read_mode, write_mode, append_mode); if Vhdl_Std >= Vhdl_93 then File_Open_Kind_Type_Definition := Create_Std_Iir (Iir_Kind_Enumeration_Type_Definition); Set_Enumeration_Literal_List (File_Open_Kind_Type_Definition, Create_Iir_Flist (3)); Set_Scalar_Size (File_Open_Kind_Type_Definition, Scalar_8); File_Open_Kind_Read_Mode := Create_Std_Literal (Name_Read_Mode, 0, File_Open_Kind_Type_Definition); File_Open_Kind_Write_Mode := Create_Std_Literal (Name_Write_Mode, 1, File_Open_Kind_Type_Definition); File_Open_Kind_Append_Mode := Create_Std_Literal (Name_Append_Mode, 2, File_Open_Kind_Type_Definition); Set_Type_Staticness (File_Open_Kind_Type_Definition, Locally); Set_Signal_Type_Flag (File_Open_Kind_Type_Definition, True); Set_Has_Signal_Flag (File_Open_Kind_Type_Definition, not Flags.Flag_Whole_Analyze); -- type file_open_kind is Create_Std_Type (File_Open_Kind_Type_Declaration, File_Open_Kind_Type_Definition, Name_File_Open_Kind); Utils.Create_Range_Constraint_For_Enumeration_Type (File_Open_Kind_Type_Definition); Add_Implicit_Operations (File_Open_Kind_Type_Declaration); else File_Open_Kind_Type_Declaration := Null_Iir; File_Open_Kind_Type_Definition := Null_Iir; File_Open_Kind_Read_Mode := Null_Iir; File_Open_Kind_Write_Mode := Null_Iir; File_Open_Kind_Append_Mode := Null_Iir; end if; -- VHDL93: -- type file_open_status is -- (open_ok, status_error, name_error, mode_error); if Vhdl_Std >= Vhdl_93 then File_Open_Status_Type_Definition := Create_Std_Iir (Iir_Kind_Enumeration_Type_Definition); Set_Enumeration_Literal_List (File_Open_Status_Type_Definition, Create_Iir_Flist (4)); Set_Scalar_Size (File_Open_Status_Type_Definition, Scalar_8); File_Open_Status_Open_Ok := Create_Std_Literal (Name_Open_Ok, 0, File_Open_Status_Type_Definition); File_Open_Status_Status_Error := Create_Std_Literal (Name_Status_Error, 1, File_Open_Status_Type_Definition); File_Open_Status_Name_Error := Create_Std_Literal (Name_Name_Error, 2, File_Open_Status_Type_Definition); File_Open_Status_Mode_Error := Create_Std_Literal (Name_Mode_Error, 3, File_Open_Status_Type_Definition); Set_Type_Staticness (File_Open_Status_Type_Definition, Locally); Set_Signal_Type_Flag (File_Open_Status_Type_Definition, True); Set_Has_Signal_Flag (File_Open_Status_Type_Definition, not Flags.Flag_Whole_Analyze); -- type file_open_kind is Create_Std_Type (File_Open_Status_Type_Declaration, File_Open_Status_Type_Definition, Name_File_Open_Status); Utils.Create_Range_Constraint_For_Enumeration_Type (File_Open_Status_Type_Definition); Add_Implicit_Operations (File_Open_Status_Type_Declaration); else File_Open_Status_Type_Declaration := Null_Iir; File_Open_Status_Type_Definition := Null_Iir; File_Open_Status_Open_Ok := Null_Iir; File_Open_Status_Status_Error := Null_Iir; File_Open_Status_Name_Error := Null_Iir; File_Open_Status_Mode_Error := Null_Iir; end if; -- VHDL93: -- attribute FOREIGN: string; if Vhdl_Std >= Vhdl_93 then Foreign_Attribute := Create_Std_Decl (Iir_Kind_Attribute_Declaration); Set_Std_Identifier (Foreign_Attribute, Name_Foreign); Set_Type_Mark (Foreign_Attribute, Create_Std_Type_Mark (String_Type_Declaration)); Set_Type (Foreign_Attribute, String_Type_Definition); Add_Decl (Foreign_Attribute); else Foreign_Attribute := Null_Iir; end if; if Vhdl_Std >= Vhdl_08 then Create_To_String (Boolean_Type_Definition, Iir_Predefined_Enum_To_String); Create_To_String (Bit_Type_Definition, Iir_Predefined_Enum_To_String); Create_To_String (Character_Type_Definition, Iir_Predefined_Enum_To_String); Create_To_String (Severity_Level_Type_Definition, Iir_Predefined_Enum_To_String); Create_To_String (Universal_Integer_Type_Definition, Iir_Predefined_Integer_To_String); Create_To_String (Universal_Real_Type_Definition, Iir_Predefined_Floating_To_String); Create_To_String (Integer_Type_Definition, Iir_Predefined_Integer_To_String); Create_To_String (Real_Type_Definition, Iir_Predefined_Floating_To_String); Create_To_String (Time_Type_Definition, Iir_Predefined_Physical_To_String); Create_To_String (File_Open_Kind_Type_Definition, Iir_Predefined_Enum_To_String); Create_To_String (File_Open_Status_Type_Definition, Iir_Predefined_Enum_To_String); -- Predefined overload TO_STRING operations Create_To_String (Real_Type_Definition, Iir_Predefined_Real_To_String_Digits, Name_To_String, Name_Digits, Natural_Subtype_Definition); Create_To_String (Real_Type_Definition, Iir_Predefined_Real_To_String_Format, Name_To_String, Name_Format, String_Type_Definition); Create_To_String (Time_Type_Definition, Iir_Predefined_Time_To_String_Unit, Name_To_String, Name_Unit, Time_Subtype_Definition); end if; -- Wilcard types. -- Create the declaration and give them meaningful (and invalid) names -- so that error messages are clear for the user. Wildcard_Type_Declaration_Chain := Null_Iir; Create_Wildcard_Type (Wildcard_Any_Type, "any type"); Create_Wildcard_Type (Wildcard_Any_Aggregate_Type, "any aggregate type"); Create_Wildcard_Type (Wildcard_Any_String_Type, "any string type"); Create_Wildcard_Type (Wildcard_Any_Access_Type, "any access type"); Error_Type := Utils.Create_Error_Type (Wildcard_Any_Type); Set_Error_Origin (Error_Type, Null_Iir); Create_Wildcard_Type (Error_Type, "unknown type"); end Create_Std_Standard_Package; procedure Set_Time_Resolution (Resolution : Character) is procedure Change_Unit (Lit : Iir; Unit : Iir) is Name : constant Iir := Get_Unit_Name (Lit); begin Set_Identifier (Name, Get_Identifier (Unit)); Set_Named_Entity (Name, Unit); end Change_Unit; Unit : Iir; Prim : Iir; Rng : Iir; begin case Resolution is when 'f' => Prim := Time_Fs_Unit; when 'p' => Prim := Time_Ps_Unit; when 'n' => Prim := Time_Ns_Unit; when 'u' => Prim := Time_Us_Unit; when 'm' => Prim := Time_Ms_Unit; when 's' => Prim := Time_Sec_Unit; when 'M' => Prim := Time_Min_Unit; when 'h' => Prim := Time_Hr_Unit; when others => raise Internal_Error; end case; -- Adjust range of TIME subtype. Rng := Get_Range_Constraint (Time_Subtype_Definition); Change_Unit (Get_Left_Limit (Rng), Prim); Change_Unit (Get_Right_Limit (Rng), Prim); -- Adjust range of DELAY_LENGTH. if Vhdl_Std >= Vhdl_93 then Rng := Get_Range_Constraint (Delay_Length_Subtype_Definition); Change_Unit (Get_Left_Limit (Rng), Prim); Change_Unit (Get_Right_Limit (Rng), Prim); end if; Unit := Get_Unit_Chain (Time_Type_Definition); while Unit /= Null_Iir loop declare Lit : constant Iir := Get_Physical_Literal (Unit); Orig : constant Iir := Get_Literal_Origin (Lit); Lit_Unit : Iir; begin if Prim = Null_Iir then -- Primary already set, just recompute values. Lit_Unit := Get_Physical_Literal (Get_Named_Entity (Get_Unit_Name (Orig))); Set_Value (Lit, Get_Value (Orig) * Get_Value (Lit_Unit)); elsif Unit = Prim then Set_Value (Lit, 1); Prim := Null_Iir; else Set_Value (Lit, 0); end if; end; Unit := Get_Chain (Unit); end loop; end Set_Time_Resolution; function Get_Minimal_Time_Resolution return Character is begin -- In vhdl87, time units are locally static, so they are evaluated -- during analysis. The units cannot be changed later. if Vhdl_Std = Vhdl_87 then return 'f'; end if; if Get_Use_Flag (Time_Fs_Unit) then return 'f'; end if; if Get_Use_Flag (Time_Ps_Unit) then return 'p'; end if; if Get_Use_Flag (Time_Ns_Unit) then return 'n'; end if; if Get_Use_Flag (Time_Us_Unit) then return 'u'; end if; if Get_Use_Flag (Time_Ms_Unit) then return 'm'; end if; if Get_Use_Flag (Time_Sec_Unit) then return 's'; end if; if Get_Use_Flag (Time_Min_Unit) then return 'M'; end if; if Get_Use_Flag (Time_Hr_Unit) then return 'h'; end if; return '?'; end Get_Minimal_Time_Resolution; end Vhdl.Std_Package;